DE3307616A1 - ARRANGEMENT FOR SWITCHING SINGLE DETECTORS INTO INSPECTION MODE IN A HAZARD ALARM SYSTEM - Google Patents

Abstract

1. An arrangement for switching over individual alarms to inspection operation in a danger alarm system comprising a central control unit (Z) and at least one alarm line (ML) which is connected to a plurality of alarms (M1, M2...) which are cyclically interrogated, where, in the cyclic interrogation of the respective alarm measured value (MMW), in each alarm (M) a timer (TG1) which can be controlled by the alarm measured value (MMW) via a measured value converter (MW), is connected to the alarm line (ML) and, by temporarily (TG2) connecting (TR2) a load resistor (R) to the alarm line (ML), generates an additional current pulse (A) and where, in the central control unit (Z), the alarm address is derived from the number of increases thus brought about in the alarm line current (IL), and the alarm measured value (MMW) is derived from the length (T) of the respective switching delay, characterized in that each alarm (M) comprises an electric switching device (S) which can be actuated externally and which, for the alarm inspection, affects the additional current pulse (A) of the respective alarm (M) in a determinate fashion, and that as a result, in the central control unit, using a device provided for this purpose, the inspection state of the respective alarm and the emitted alarm signals of the subsequently triggered alarm are recognised as inspection alarm.

Description

Arrangement for switching individual detectors to inspection mode in a hazard alarm system

The invention relates to an arrangement according to the preamble of claim 1.

To ensure the safe functioning of signaling systems, in particular Fire alarm systems, it is mandatory to ensure all system parts at regular intervals to check. On the one hand, the central assemblies are tested, and on the other hand, those that are switched on are tested Detector triggered, with detectors and transmission paths to the control center being checked. In general it is customary With conventional alarm systems, the reporting area to be checked at the alarm center for inspection to switch.

The so-called one-man inspection then goes on the examiner to the respective detectors he triggers. For example, in the case of automatic smoke detectors, the detector triggered with a detector tester by applying test gas to the detector. The receipt is passed on by the indicator lamp in the detector. In this way, area by area is checked successively. He's on inspection switched area but not ready to report, so that no

30 ne alarm message can occur.

When inspecting the detector with two people, the test is generally carried out so that the The reporting area to be checked is switched to inspection at the control center. One person in turn solves those individual detectors. A receipt will be sent by

En 1 Fra / February 24, 1983

_ & _ VPA 83 P 1 1 2 3 DE

the second person at the control center who triggers the Notifies the first person detector with the help of a radio. This is the area switched to inspection also not ready to report. For example, this two-man inspection can be carried out in the case of non-automatic detectors, such as push button avoidance.

So during the inspection there is a more or less large spatial area not monitored, which represents a significant security risk. That risk is then reduced if, in addition to the automatic detectors, manually triggered detectors are also installed, the but then not on the same line as the automatic ones Detectors may be connected. Then the reporting line may never be in the same spatial area at the same time for automatic and the alarm line for manual alarms can be switched to inspection, so that if necessary it is still possible to issue an alarm from the checked area with the armed zone. this has however, the disadvantage that a larger number of detectors are always not ready for alarm. Furthermore, it is from one Significant disadvantage that the maintenance technician has to enter the same spatial area twice in order to access the different To walk through the detection lines and to trigger the respective detectors. This means a considerable amount of time. Another disadvantage is that in the meantime the switchover from one Line must be made on the other line for the same area, which is the case with the one-man inspection leads to a further expenditure of time if the detector location and the control center are far away from each other.

. In DE-PS 25 33 382 is a reporting system with several Described in the detectors connected to a control center via a signal line at the beginning of each polling cycle all detectors from the line voltage of the message

never electrically disconnected and then switched on in the specified order in such a way that each detector after a time delay corresponding to its measured value, additionally to the subsequent detector to the Line voltage turns on. In the headquarters is an evaluation device that determines the respective detector address from the number of previous increases in the line current and the measured value is determined from the length of the respective switching delays. There will be the analog Detector measured values for obtaining differentiated alarm messages or disturbances linked.

In DE-AS 26 38 068 is a fire alarm system with several connected to a control center via a message loop Detectors described in which the detectors for querying are each time controlled by transducers can be connected to the line. The time element of each detector also generates the line current Reinforcing load resistance is briefly connected to the message loop. By connecting the The increase in the line current caused by individual detectors is displayed in the control center as the detector address, the times of the increase evaluated as a detector floor value.

Based on such reporting systems, it is the task of Invention of specifying an arrangement for the inspection switching of the individual detectors in a hazard alarm system, with which, on the one hand, the inspection times are significantly reduced by eliminating the above-mentioned operating procedures can be and with the other hand, the ready-to-report state is not restricted, whereby the detection and further processing of alarms occurring during the inspection of the system are not suppressed.

According to the invention, this object is described in the introduction Hazard alarm system with the characterizing features of claim 1 solved.

- -ί - VPA 33 P 11 2 3 OE

With hazard alarm systems that work according to the so-called chain synchronization principle work, the analog detector measured value or the additional current pulse of the respective pasture changes according to the invention in a defined way, so that from the change in the detector measured value or from the pulse shape of the additional current pulse in the control center, the inspection status and the subsequent triggering of the relevant detector is recognized as an inspection alarm.

For this purpose, the detector has a, for example mechanical or magnetically operable switching device, which is operated from the outside and the detector measured value or the additional Current pulse changed in a very specific way.

For this purpose, according to the invention, an additional circuit arrangement is provided in the respective detector, which is advantageous Way changes the measured value by a certain amount. For example, with a manually operated Detector, a push-button avoidance, the rest measured value for the inspection switch by a defined The measured value jump can be brought into an inspection alarm zone that differs from the actual alarm zone. Normally, when the push-button avoidance is in the ready-to-report state, the measured value of the detector jumps after it has been triggered from the rest area to the alarm area. With the switchover of the detector to inspection mode, for example by inserting a short-circuit plug, the measured value of the detector jumps from the rest area to a specified inspection area. This means that the control center recognizes that the measuring signal of the triggered detector does not represent an alarm, but an inspection alarm. This message can be made on the detector itself and / or in the Headquarters are visually displayed. After the inspection test, the respective detector is reset.

Appropriately, the primary switching device of the respective

-Jt- VPA 83 P 1 1 2 3 DE

ligen detector the amplitude or the duration of the additional Impulse influence in such a way that in the center the inspection message from the pulse height or pulse width can be derived. A further timing element is advantageously provided in each detector, the "acted upon by a first timer, the per se known load resistance, for example over a controlled transistor is connected to the message line for a predeterminable time, the running time of the second timing element determines the pulse width of the additional pulse. The running time of the second timer be determined by an RC element that is assigned to the timing element is. When switching to inspection mode, the RC element is activated in a defined manner, e.g. by making a change the resistance value of the resistance of the RC element, so influenced that a certain pulse duration of the Additional pulse is generated. In the control center, this specific pulse duration is recognized as an inspection switchover and a subsequent triggering of the detector is interpreted as an inspection alarm.

In a further expedient embodiment of the invention the resistance value of the load resistance of the switching device for inspection operation can be specified Way can be changed so that the pulse height of the additional pulse is influenced and from it in the center the switchover to inspection mode of the relevant detector is derived. The detector measurement signal is in the control center of the subsequently triggered detector is interpreted as an inspection alarm.

In the case of hazard alarm systems of the type mentioned above, the analogue detector measured values are displayed next to automatic detectors other criteria evaluated according to the integration process. The change in measured values is evaluated here according to the amount and according to the time to an alarm criterion

-3 -

- β - VPA 83 P 1 1 2 3 OE

to be able to derive. However, since it is not practical to use a detector tester to emit a defined amount of test gas, the inspection is carried out on the one hand by switching to inspection mode in that the Triggering the switching device for inspection on the detector causes a defined jump in measured values, which according to the Evaluation methods of such signaling systems make the detector less sensitive and identifies it as being under inspection. In the control center, the jump in measured values is used as an inspection preparation and the measured value signal of the subsequently triggered detector is evaluated as an inspection alarm. Included the switchover at the detector can be carried out by attaching the detector tester. The subsequent opening of the Detector with test gas is recognized as an inspection message by the evaluation device of the control center. The special ones Properties of the test gas and the previously reduced detector sensitivity lead to switching back the Detector for normal operation for a rapid fading of the relatively small change in measured value. After a certain time has elapsed, the test gas in the detector has decayed corresponds, the measured value of the detector returns to the ready-to-report state (idle value), as does the evaluation device goes back to normal measured value evaluation in the control center.

With the arrangement according to the invention it is therefore possible to switch the detector to be tested individually and exclusively automatically to inspection mode without switching on special operating procedures become necessary for the alarm center of the alarm system. Thereby the detector measurands interpreted as an inspection report. Furthermore, with the arrangement according to the invention, each reporting line a control center have both automatic and manual detectors, as there is a line-by-line switchover Inspection operation unnecessary. This means that a reporting area only needs to be entered once for the inspection.

- fa-

- / - VPA 83 P 1 123DE

Further details of the invention are set out below explained with reference to the drawing. Show it

1 shows a conventional one-man inspection;

2 shows a conventional two-man inspection,

3 shows an inspection according to the invention,

4 shows a possible circuit arrangement for a defined change in the measured value for a push-button avoidance,

5 shows a possible circuit arrangement for a defined change in the measured value for an automatic detector, 15th

6 shows a possible circuit arrangement for the defined Change of the pulse amplitude of the additional pulse for a detector /

7 shows a possible circuit arrangement for a defined change in the pulse duration of the additional pulse for one Detector,

8 and 9 each show a detector measured value diagram for a push-button device according to FIG. 4,

10 and 11 each show a detector measured value diagram for an automatic detector according to FIG. 5,

12 shows a current diagram of a message line for detectors according to Fig. 6 and

13 shows a current diagram of a signaling line for detectors according to FIG. 7.
35

In Figs. 1 to 3, a center Z is in each case with two

-A - ^VPA 83 P 1 12 30E

for example two alarm lines ML1 and ML2 indicated. At each zone are a plurality of detectors on the Zone ML1 detectors M11, M12 etc. and on the zone ML2 the detectors M21 and M22 etc. connected. In the case of the one-man inspection, as shown in 'Fig. 1, at the control center Z for a reporting area first a Signal line switched to inspection. The inspector then goes from detector to detector on this detection line and triggers the detector in each case. Are for example to the

1Q alarm line ML1 automatic detectors connected so the detectors with a detector tester triggered by test gas. An acknowledgment is given by the indicator lamp in the detector. After a reporting line ML1 has been checked, the relevant reporting line ML1 is again in the control center on alert and the next line ML2 of the same reporting area switched to inspection. Then the inspector goes from detector to detector on this detection line ML2, on which, for example, manually operated detectors are installed and triggers them in sequence. Then the inspector goes back to the control center and switches the inspected one Zone back on alert.

The so-called two-man inspection is located one person at the control center and the second person in turn triggers the detectors for a respective inspection switched off zone; The transmission of the receipt can be sent from the operator at the control center to the initiator be carried out on the detector with the aid of a radio device. The inspected zones must then be opened again Ready to report can be switched.

An inspection operation according to the invention is indicated in FIG. 3. One man can do this in turn Switch only one detector to inspection and check functionality by triggering the detector. at In this inspection procedure there is only one detector at a time

-9 " ^VPA 83.P 11 2 3 DE

not ready to report for the short period of the inspection test, while all other detectors on the same zone are ready to report.

4 shows a circuit arrangement of a detector for switching to inspection mode. The detector measured value is changed in a defined way for inspection. The push-button alarm M is connected to an alarm line ML, which consists of two conductors, between which a voltage is applied. The detector M essentially contains a timing element TG1, which is set in motion when the voltage is applied. The running time of the timer TG1 is influenced by the transducer MW. At the beginning of an interrogation cycle, the line voltage is briefly switched off for synchronization. The timing element TG1 is only triggered when the voltage is applied. So that the transducer MW is supplied with current during the shutdown of the line voltage, a capacitor C is provided, which supplies the transducer MW during the short time of the shutdown. A diode D1 prevents feedback. After the timer TG1 has elapsed, the transistor TR1 switches the alarm line ML through to the following detector. In this way, one detector after the other is switched on in a chain, the analogue measured value influencing the timing element TG1 according to its size. A second timer TG2 is connected downstream of the first timer TG1. The output of the second timing element TG2 controls a second transistor TR2 which is connected to the message line ML via the resistor R. The running time of the second timing element TG2 is determined by the RC element R _T2 and C _T2 . According to the invention, the transducer MW is assigned a voltage divider R1, R2, which influences the detector measured value in a defined manner. A resistor R3 is connected in parallel across the resistor R1 via the detector switch MS.

If the push button switch is pressed, i.e. the detector switch

-> * " ^VPA 83 P 1 1 2 3 DE

ter MS is open, the detector measured value changes suddenly and thereby triggers an alarm. To switch the detector M to inspection mode, the detector M parallel to the resistors R1, R3, a further resistor R ', which has a connection X1-X2 for a short-circuit plug KS leads to the detector switch MS. The connection points X1 and X2 form together with the short-circuit plug KS the switch according to the invention that can be operated from the outside for switching to inspection mode.

If the pushbutton is at rest, it is Detector switch MS closed, i.e. resistor R3 is parallel to resistor R1 of voltage divider R1, R2 switched »With the short-circuit plug KS in the connection points X-1 - X2 and the resistor R ', the detector M switched to inspection mode. When the detector switch MS is triggered, a defined jump in measured values is brought about, which causes a change in the measured value, but which differs from the change in the measured value when an alarm is triggered, . as shown in Fig. 8 and will be carried out there.

Fig. 5 shows the block diagram of an automatic detector M, in which for the switch (S) to inspection mode also the detector measured value in a defined manner is changed. The detector M shows a similar structure as the detector M according to FIG. 4, with the difference that no push-button switch MS and thus no resistor R3 has to be provided. The measured value of the transducer MW is influenced in a defined way that with the switch S for inspection operation, the resistor R 'dem Resistor R1 of the voltage divider R1, R2 is connected in parallel. The resulting jump in measured values and the The change in the measured value when the detector is triggered is shown in FIG. 10 and is explained there.

6 and 7 each show a detector M, which is also used to switch to inspection mode

-jn- VPA 83 P 11 2 3 OE

has a switch S, with which the pulse amplitude (Fig. 6) or the pulse duration (Fig. 7) of the additional pulse being affected. In Fig. 6, the detector W is in the block diagram shown. It is connected to the ML alarm line. The transducer MW is connected to the message line ML via the diode D. Connected in parallel to him is a capacitor C, which in the short time of shutdown the line voltage supplies the transducer with current. The running time of the connected to the ML zone first timing element TG1 is influenced by the transducer MW. At the beginning of each query cycle as already described, the line voltage is used for synchronization switched off briefly and then switched on again. The first timing element TG1 thus begins as a function of the detector measured value to run via the transducer MW. When the timer TG1 expires, the Transistor TR1 the reporting line.ML to the following detector by. In this way, as already explained above, one detector after the other is switched on in the form of a chain.

The first timing element TG1 is followed by a second timing element TG2, the output of which is a second transistor TR2, which is connected to the alarm line ML via the load resistor R. Via the load resistance R an additional current pulse (A) flows, which briefly amplifies the line current (IL). Via the switch S to Switching to inspection mode, a further resistor R 'is connected in parallel to the load resistor R. As a result, the pulse amplitude (A2) for the inspection operation is influenced in a defined manner, as in FIG. 12 is shown.

In Fig. 7 the block diagram of a detector M is shown, in which for the switchover S to inspection mode the pulse duration (t) of the additional pulse (A) is influenced. The circuit arrangement of the detector M is the The circuit arrangement of FIG. 6 is similar. The load resistance

-srt.- VPA 83 P 1 1 2 3 DE

In this case, however, no further resistance is assigned in parallel to R, rather the additional resistance (R ') is assigned to the RC element R ₇₂ and C ₇₂ . The RC element determines the running time of the second timing element TG2. _{Here in the exemplary embodiment, the further resistor R 'T2} is connected in series with the resistor Rmp of the RC element, but is short-circuited with the switch S. If the detector M is switched to inspection, the switch S is opened, thereby influencing the pulse duration (t) of the additional pulse (A2) in the desired manner. This is shown in FIG.

8 shows a measured value diagram for a push-button avoidance according to FIG. 4 with a defined change in the measured value for the inspection company. The detector measured value is over the time t MMW applied. If the detectors are inactive, this corresponds to an inactive value MMW1. Let us now assume that to switch to inspection mode in the push button meider the b, ei Fig. 4 described short-circuit plug KS is plugged in at time TR1. At time T2, the push button is released by pressing of the push button (switch MS) triggered, so that the detector measured value MMW drops suddenly. The circuit arrangement in the detector is designed so that the detector measured value MMW2 as the inspection alarm value is higher than the actual alarm value (MMW3) when the detector is triggered. In the control center can recognize the evaluation device provided there that an inspection alarm value MMW2 is present. The change in detector measured value MMW1 - MMW2 is interpreted as a criterion for the inspection alarm. To the At time T3, the detector is reset again so that the detector resumes its idle value MMW1. Thereafter For example, the short-circuit plug is pulled at time T4, so that the detector is ready for normal operation again ready.

- J ^ - VPA 83 P 11 2 3 OE

In Fig. 9, the measured value change is for a push-button alarm in the event of an alarm. The detector measured value MMW1 corresponds to the idle value. Will the push button alarm actuated with the switch MS (FIG. 4) at time T1, a defined jump in the measured value takes place. This change in measured value MMW1 - MMW3 / which differs from the change in the measured value during inspection operation is made in the control center evaluated as a criterion for alarm. The push-button alarm must be reset after it has been triggered, so that, for example, at time T2 the detector goes back to normal operation and assumes its idle value MMW1.

In Fig. 10 a detector measurement value diagram is shown for a defined change in measurement values in an automatic detector. The detector measured value MMW is also plotted over time t. The detector has a detector measured value (Idle value) MMW1, which occurs suddenly at time T1 by actuating the switch (S) for inspection operation will be changed. This measured value jump | mmW1 - MMW2 | is recognized in the control center as a switchover to inspection mode. The one exposed to a test gas at time T2 and the detector triggered by this emits an alarm by changing its measured value (MMW3), which is in the Central is evaluated as a criterion for inspection alarm. The detector measured value MMW decreases so that it is in the alarm threshold (MMW3) device. If the switch (S) is reset again at time T3, for example with when the detector tester is set down, the instantaneous detector floor space value MMW jumps again by the raised one Amount (| MMW1 - MMW2]). After the test gas in the detector has subsided, for example at time T4, the detector resumes its idle value MMW1. After this time, incoming measured value changes are recorded in the central unit recognized as real alarms by this detector.

- u - VPA 83 ρ _η 2 3 OE

In Fig. 11 the measured value diagram is shown in the case of automatic detectors in the event of an alarm. The detector has one Rest value MMW1, which is, for example, at time T2 changes slowly due to a hazard criterion and moves in the direction of the alarm threshold (MMW3). This is done in the Central recognized as an alarm criterion, for example at time T3. If there is no longer any alarm criterion, it works the detector returns to its idle value MMW 1 (time T4).

In FIG. 12, the current profile IL of a reporting line (ML) is shown over time t, according to the influencing of the Pulse amplitude (A) of the additional pulse according to Fig. 6. Time T1 corresponds to the measured value of the first detector (M1) according to the running time of the timer (TG1). The additional pulse generated after the timer (TG1) has elapsed the amplitude A1 and the duration t. The following detector (M2) has a duration corresponding to its measured value T2 until the next detector is switched on on the detection line. For example, if the second detector (M2) switched to inspection, the amplitude (A) is changed according to the invention according to FIG. 6, here to the amplitude level A2 raised. When the third detector (M3) is switched on, the detector measured value of the third Detector (M3), the time T3 of the first timer (TG1) of the third detector (M3) elapse until the additional pulse A3 of the third detector (M3) is generated without influencing. In the headquarters is due to the higher Amplitude A2 of the additional pulse of the second detector (M2) recognized that the second detector (M2) switched to inspection is. With the cyclical detector query, the Detector measured value (^ T2) of the triggered, on inspection switched detector (M2) is not interpreted as an alarm criterion, but recognized as an inspection alarm.

In Fig. 13, the timing diagram IL is a message line

-It- VPA 83 P 11 2 3 DE

(ML), with the second detector (M2), corresponding to the time value T2, the additional pulse A in his Duration t2 has been changed so that it is used in the control center it can be recognized that this detector (M2) is switched to inspection mode. The detector measured values (= T2) of the relevant triggered detector (M2) are then also evaluated as an inspection alarm and not as an alarm criterion viewed.

Make the arrangement according to the invention for switching a single detector to inspection mode, the detector is first switched to inspection mode with the switch provided on the detector, then the detector triggered. The resultant change in the measured value is recognized in the control center as an inspection message and a successful inspection alarm is displayed on the detector. Then the detector is switched back to normal operation, so that later changes in measured values of the detector in the control center are again as real alarm messages be recognized.

10 claims
13 figures

- blank page -

Claims (10)

VPA 83 P 1 1 2 3 DE Claims 1 J Arrangement for switching individual detectors to inspection ■ mode in a hazard alarm system with a control center (Z) and at least one reporting line (ML) to which several detectors (M1, M2 ...) are connected, which are queried cyclically, whereby with the cyclical query of the respective detector measured value (MMW) in each detector (M) one from the detector measured value (MMW) via a transducer (MW) controllable timing element (TG1) is switched on to the message line (ML) and by briefly (TG2) switching on (TR2) a load resistor (R) to the message line (ML) an additional current pulse (A) is generated and where in the control center (Z) from the number of 'increases in the signaling line current (IL) caused by this, the detector address and the detector measured value (MMW) is derived from the length (T) of the respective switching delay, thereby characterized in that each detector (M) has an externally operable switching device (S) which for the detector inspection the detector measured value (MMW) or the additional current pulse (A) of the respective detector (M) influenced in a defined way, and that in the control center With a device provided for this purpose, the inspection status of the detector concerned and the submitted ones are derived from it Detector signals of the subsequently triggered detector are recognized as an inspection alarm. 2. Arrangement according to claim 1, characterized in that the switching device (S) the detector measured value (MMW) changed by a specified value (| MMW1 - MMW2 |) and in the control center from the Change in measured value an inspection message is derived. 3. Arrangement according to claim 1, characterized that the switching device - Z-
- ^ - VPA 83 P 1 1 2 3 DE (S) the amplitude (A1, A2 ...) or the duration (ti, ti ) of the additional current pulse (A) changed and in the Central from the pulse height (A2) or the pulse width (t2) of the additional current pulse (A) an inspection message is derived. 4. Arrangement according to claim 2, characterized that each detector has an additional circuit arrangement (R1, R2, R '), which the The transducer (MW) is assigned and can be acted upon by the switching device (S). 5. Arrangement according to claim 4, characterized that the additional circuit arrangement is formed by a voltage divider (R1, R2) which can be changed by connecting (S) a further resistor (R '). 6. Arrangement according to claim 3, characterized g e - indicates that the resistance value of the load resistor (R) is the pulse height (A) of the additional pulse (A1, A2 ...), with a further resistor (R ') being connectable (S) to the load resistor (R). 7. Arrangement according to claim 3, characterized in that the running time of a second timing element (TG2) determines the pulse width (ti, t2 ...) of the additional pulse (A), with a running time of the second timing element (TG2) determining RC- Member (R _T2 , Cp ₂ , R ' _T2 ) can be influenced by the switching device (S). 8. Arrangement according to one of the preceding claims, characterized in that the switching device (S) can be actuated mechanically or magnetically is. - ™ - ^VPA 83 P 11 2 3 DE 9. Arrangement according to one of the preceding claims, characterized in that the switching device (S) with the attachment of a test gas generator can be operated on an automatic detector. 10. Arrangement according to one of claims 1 to 8, d a characterized in that the Switching device (S) is formed by a short-circuit plug (KS) in manually operated detectors.