DE2218198C3 - Fire alarm system - Google Patents

Description

There are phase shifts between the transmitted and received ultra-short waves, in the case of which Superposition of low-frequency beats occur. These beats are amplified after and rectification fed to an AC integration element, likewise when a predetermined integration voltage is reached via an amplifier controls an alarm relay.

The object of the invention is to provide a particularly useful and inexpensive The circuit of a fire alarm system to be produced, soft to avoid false alarms as well only triggers the alarm when a fire alarm has responded for a certain period of time. This object is achieved by the features specified in the patent claim.

The inventive circuit of the multivibrator, in which the operating voltage for the Fire alarms via this itself are additional mechanical or electronic components to interrupt the operating power line to the fire alarms unnecessary, so that with With little circuit effort, the costs of the system can also be kept low.

The invention is based on the illustrations below an Aüsführimgsbeispiels explained in more detail. It shows

Fig.! a circuit diagram of an embodiment of the Invention.

FIG. 2 shows a circuit diagram of a stabilized voltage source from FIGS. 1 and

3 and 4 signal forms to explain the mode of operation of the in FIG. 1 shown circuit.

The in F i g. I the sound system of the FeuermcL deanlagc contains a central unit 1 with terminals 3 and 4, of which a pair of lines 30, 40 is led to the individual fire alarms 2-1, 2-2 to 1-n . Each fire alarm 2 contains a sensor 25, with the help of which the outbreak of a fire is detected via the smoke development or temperature and which supplies an output signal, furthermore a normally open switch, here in the form of a solid silicon rectifier 26, which is activated by the output signal of the Sensor 25 is closed and the pair of conductors 30. 40 short-circuits and is not returned to its original state as long as the voltage in it does not drop below a predetermined value.

The central unit 1 contains a power supply unit 5, a multivibrator 6, an integrator? and an alarm device S. The power supply part 5 in turn contains a DC voltage source 10, such as a battery and a break contact 11, the is connected in series with the voltage source 10 and to reset after addressing the Plant serves.

The multivibrator 6 contains resistors 12, 13, 14 and 15 as well as capacitors 16 and 17 and NPN transistors 18 and 19 and diodes 20 and 21. The transistor 18 is connected with its collector via a resistor 12 to the positive terminal ιIeι Spannimgsqiielle and with its emiiter connected to the negative terminal of the voltage source and the negative output terminal 4 of the central unit, while its base is connected to the cathode of the diode 21, the anode of which is connected via ilen resistor 14 to the positive terminal of the voltage source. The collector of the transistor I ¹ ) is connected to the positive terminal of the voltage source via the resistor 15, its emitter to the anode of a diode 23 and its base to the cathode of the diode 20, the anode of which via the resistor 13 to the positive one. Terminal of .voltage source is. The capacitor 16 is connected between the connection point Λ of the resistor 12 with the transistor 18 and the connection point B of the contradiction 13 with the diode 20, while the capacitor 17 between the connection point C of the contradiction 14 and diode 21 and the connection point I. ) is connected by resistor 15 and transistor 19 The base of transistor 18 is connected to the negative terminal of the voltage source via a resistor 22, the base of transistor 19 is connected to the cathode of a Zener diode 24, the anode of which is connected to the negative terminal . The anode of the diode 23 is connected to the output terminal 3 of the central unit. In this multivibrator 6, the resistors 13 and 15, the transistor 19 and the diodes 23 and 24 are bordered by a dash-dotted line 9 and form a stabilized voltage source of a known type for the fire alarm in cooperation with the voltage source 5, as in FIG. 2 is shown.

The integrator? Zeiur includes diodes 27 and 31, capacitors 28 and 32 and jinen resistor 29. The Zener diode 27 is connected with its cathode to the positive terminal of the voltage source and with ih ^r he anode connected to the point /). One end of the capacitors 28 and 32 are connected to the positive terminal, the other end of the capacitor 28 is connected to the resistor 2'J at the point /). and the other end of the capacitor 32 is connected to the cathode of the Zener diode 31, the anode of which is connected to the other end of the capacitor 28.

The Alarmeinricht'ingS contains a PNl'-transistor 33 whose base is connected to the cathode of the Zener diode 31, whose emitter is connected to the positive terminal of the voltage source and whose collector is connected to the negative terminal of the voltage source via a series circuit of resistors 35 and 36 . The alarm device S also contains an NPN ¹ transistor 37. The base of which is connected to the connection point between the resistors 35 and 36, the collector of which is connected directly to the positive terminal of the voltage source and its emitter via the parallel connection of a relay 41 with an alarm transmitter 42 negative terminal is connected. The alarm device also contains a resistor 34 which is connected between the emitter and base of the transistor 33, and a resistor 38 which is connected between the base of the transistor 33 and the anode of the diode SS 39. the cathode of which is connected to the collector of the transistor 37. The relay 41 is switched in such a way that, in addition to the alarm unit 42, there are various other functions. can operate Alarnigeriilc not shown

In the ready-to-use state, an indeterminate constant DC voltage from the voltage source 10 through the Sp; imumgssiabilisierungsschallung'J, which contains the multivibrator 6, to the individual fire alarms 21-1. 2-2 ... approved G5 which are parallel between the pair of conductors 30. 40. The voltage stabilization circuit 9, which in Fig. 2 is shown schematically. is of a known type and therefore does not need detailed information here

wrote to graze. On the other hand, since the emitter of the transistor 18 is directly connected to the negative terminal of the voltage line. em current flows through the resistor 14 and the diode 21 to the base of the transistor 18 and keeps it in the switched-on state. Correspondingly, currents flow through the resistors 12 and 14. However, since the emitter of the transistor 19 is connected to the negative terminal of the voltage input via the very high impedance of the fire alarm. This means only a small current through the resistors 13 and 15. The capacitor 16 is therefore charged to the Zener Spaniuing of the Zener diode 24, so that the point H is positive. With this charging to the source voltage, point D also becomes positive. , ₅

If "one of the sensors 25 detects a fire and the relevant silicon rectifier 26 to conduct brings, but then the emitter of the transistor 19 via the silicon rectifier 26 to the negative Terminal of voltage source 10 short-circuited. The transistor 19 is therefore made of the same (irund as the transistor 18 is turned on, and the positive end of the charged capacitor 17 is turned on the negative terminal of the voltage c | iial 10 ve-,

until the (iiuiul for its response no longer exists. During each cycle of this operation, the voltage across the resistor 15, which is created by the conduction of the transistor 19, is successively accumulated in the capacitor 28 with a delay, which is due to the time constants of the resistor 29 and of the capacitor 28. and each time the voltage on the capacitor 28 exceeds the Zener voltage of the Zener diode 31, it is fed to the capacitor 32 for integration. The Zener diode 27 connected across the resistor 15 serves to limit the voltage, see above that voltages lying above the Zener-Spaiinung are passed on and undesirably low voltages are suppressed.Figure 3 shows some signal forms as they occur at the opposing land 15. The voltages V _n, V _x and I ' The required voltage value for the fire alarm, on the other hand the standby voltage and finally the voltage when the fire alarm is triggered d ar, and the times I ₁ . /., and /., correspond to the actuation of a fire alarm, the conducting of the transistor 19 b / .w. resetting the fire alarm. During the repeated actuation a- «

consequently inhibited "is the voltage on the Ba ₂₅ fire detector is the voltage across capacitor 32 sis of the transistor 18, which increases let through the diode 21 to the successively as F i g. 4 recognize and

gradually lets a significant current through

negative end of the capacitor 17 connected

is " instantly drawn to a potential, which :.

is equal to "the emitter potential. The transistor 18

is thus switched off and provides a high Impc- _3o disturb 33 and supplies the connection

point of the resistors 35 and 36 an output signal. This output signal is generated by the

an appreciable stream

the opposing land 34 flow, lsi the voltage drop at resistor 34 large enough, then the transit

Vbid

In this state the capacitors 16 _ _ _

and 17 by the switched-on transistor 19, the interference suppression 37 is amplified and fed to the relay 41, wave-shaped and then with the opposite polarity this actuates the alarm device 42. As a result of the fact charged again, so that the connection point ₃₅ series connection of the resistor 38 with the diode le A and C are positive. When the base voltage
of transistor 18 during this charging process
is charged to a certain value. then
the transistor 18 is turned on again and sets

the fire alarm system in its original rest

39, the voltage drop occurs across the resistor 34, causing the alarm device 8 to operate is held.

To switch off the alarm and to reset it

represents a low impedance. The positive point /)

of the charged capacitor 16 is set to the nc- state if the break contact 11 is pressed in the Stroni-

uaiive terminal potential pulled, and thus supply part 5, so that the supply voltage

the base voltage of transistor 19 is also temporarily interrupted.

Immediately brought to its emitter potential. Is the reason for the activation of the fire alarm. In this way, the transistor 19 is switched back to its ₄₅ only momentarily induced voltage or a new blocking state! and has a high impe- sudden blast of warm air, then there will be no fcuerdanz. At this point in time, the voltage on the alarm is given, since such processes do not last long, reduced to about zero volts again to trigger the system, and in alike π and therefore the one between the pair of conductors 30 will soon be common disappear again. The charge is reduced to a voltage of 4 "in the same way. _{50 of} the capacitor 32 does not build up far enough so that the conductive silicon rectifier 26 of the. to switch on the alarm device 8, so that the fire alarm is given back to its original gcöff- no alarm.

no state is reset. The circuit The alarm system described above is thus

thus resumes its original state. able, the reason for the Betätig mg of a fire

In the event that the fire alarm is turned on to analyze the antecedent and only then raise an alarm

to speak, this game repeats itself, to give when a fire really does break out.

For this purpose 2 sheets of drawings

Claims (1)

legend 1 566 687) the fire alarms have one Patent application controllable switch, such as a controllable silicon ^p 'rectifier, which when the sensing device responds Fire alarm system with a plurality of par- ties is closed and closed for so long all of the fire alarms connected between a pair of conductors remain, as is the span detector on the pair of conductors and one at the ends of the pair of conductors does not fall below a predetermined one, connected central unit, which has a span. The advantage of these systems is that cm ncngsquelle for generating the operating voltage continuous alarm is given even if the for the fire alarm, a multivibrator to fire only within a short period of time of impulses when responding to an io, but there is a peculiarity. Fire alarm and one the occurrence of a pre- that a permanent alarm is given even if the fire alarms incorrectly detecting a certain number of impulses due to a momentary in- and then an alarm device triggering induced voltage, e.n brief penetration of direction, marked by smoke in the fire alarm or through a plotzline.t, that in the case of a known fire, a blast of hot air or other 15 a reuer pre-alarm system, in which each fire alarm has been excited a deceptive event. Such a Normal false alarms connected between the pair of conductors can occasionally trigger panic and wise open switch, which is therefore undesirable when responding. the fire alarm closes and only opens again, to avoid such false alarms it is off if the voltage on the pair of conductors falls below a 20 in the magazine »Neues aus der Technik« from March 1, the operating voltage, 1971, page 3, for fire alarm systems with fire alarms (2-1 to 2-n) via a dem Line system connected to a signal center - current path of the multivibrator (6) is supplied, fire detectors that are conductive when they respond, which during the stable state of the multivibrator (6) have a changed impedance in the event of a fire, during the in 25 and thus one opposite the rest state unstable state is blocked, however, and that change the line current, due to which a fire alarm signal is sent to a voltage terminal (D) of the multivibrator of the signal center! is generated, (6), which is only known in its unstable state to provide a follow-up timer, which supplies output voltage, an integrator (7) to the line is closed each time a change occurs, whose integration voltage of the line current compared to the idle state interrupted briefly when a predetermined voltage is reached, an alarm device (8) which is locked in the subsequent timer and can be counted one per interruption. impulse delivers. These counting pulses are then included With the help of an adjustable counter, and paid at 35 The Counter a message signal with the help of which an alarm is triggered. According to an old registration The invention relates to a fire alarm system with the DT-AS 2 051649 described even one A plurality of such fire alarm devices ka: T connected in parallel between a Leiteipaar the counters Fire alarms and a timer at the ends of the 40 pulse generating through a monostable Pair of conductors connected to the central unit, which are implemented as a flip-flop. Voltage source for generating the operating voltage In another older login (DT-OS tion for the fire alarm, a multivibrator for 2107 862) a fire alarm system is described, Generation of impulses when one responds with which a sensing element with the control element fire alarm and a timed the occurrence of a precautionary capacitance of a field effect transistor Forms the number of pulses and the constant member and the field effect transistor then an alarm device triggering device controls an integrating amplifier, the one contains. the operating voltage of the field effect transistor From the German Offenlegungsschrift 1 810 070 breaking switch operated, the combination of which is a Fcucrmeldeanlage known in which the 50 circuit of these elements forms a square oscillator with individual fire alarms in the monitoring state, the duty cycle of the resistance value of a stabilized voltage is dependent on the sensing element. Call in case of fire. So that the stabilized voltage source only shows changes in this resistance, the low quiescent current of the fire alarms provides the pulse duty factor so that it has to depend on the considerably stronger response integration capacitor, which the square wave current and the supply of the operating current for the supply is supplied, building up voltage a warning device in the response state. The known circuit in the amplifier, which is connected downstream, sees a changeover switch and a further, unstable alarm relay is triggered. The integration of a secure voltage source provides the system with 60 pulses and the triggering of an alarm when the response trap is switched. In this way the integration voltage of a predetermined value can be reduced overall, since instead of exceeding it, stabilization measures are also known from DT-PS 1 078 016, which describes an alarm device in which only one of the ultra-short waves is emitted and in a voltage source with high current yield after reflection relatively weak resilient stabilized voltage 6 ₅ j _{m 2U} monitored space werquelle received again is required and in addition a catalyzed unstabilized and compared with the radiated waves, cheap Spannungsquclle is used. will. If there is a Bc- Bci known Fcucrmcldeanlagen (German exit or a temperature change, so result