DE3225044C2 - Process and device for the automatic query of the detector measured value and the detector recognition in a hazard alarm system - Google Patents

Abstract

Process for the automatic query of the detector measured value and the detector identification in a hazard alarm system with a control center and at least one message line (ML) to which one or more detectors (M) are connected. In the case of cyclical interrogation, a timer (T1) that can be influenced by the detector value is set in motion in each detector at a point in time that is characteristic of the detector address. During its runtime, control commands for the relevant detector (M) are evaluated as switching commands. Due to an identifier (R3 and R4) in the respective detector, the detector measured value is changed by a specified value and the detector's identifier is determined from the extent of the change and, at the same time, the detector measured value of the respective detector (M) is determined in the control center.

Description

The invention relates to a method for the automatic query of the detector measured value and the M.:lderkennurig in a hazard avoidance system according to the preamble of claim 1 and a device to carry out this procedure.

Hazard alarm systems are often with different borrowed Detector types equipped. AU example is a fire alarm system to which smoke, heat,

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The measured physical fire parameter is evaluated in the detector using a suitable algorithm. Only a standardized, generally digital signal is transmitted to the control center. Different parameters are often evaluated in the detector according to different algorithms. There are also signaling systems known, which no longer evaluate the fire parameter in the detector, but in a suitable transmission method analogue to the reporting center, in which an evaluation device, preferably a Microcomputer that processes the measured values of all detectors.

Such a Mefdeanlage is for example in DE-PS 25 33 330. There, when each detector is queried, a line is identified for one that is characteristic of it Vorlaufzcit the detector to emit a current pulse with one of its measured value proportional Impulse duration caused. In the control center, an evaluation device is used to measure the lead time the address of the individual detector and, by measuring the pulse width, its analog detector measured value determined.

In DE-PS 25 33 382 is for such reporting systems a method is described that at the beginning of each polling cycle all detectors from the detection line electrically disconnects and then switches on the detectors in the specified order in such a way that each detector after a time delay corresponding to its measured value, the respective subsequent detector is also activated cfie line voltage turns on. Located in the headquarters an evaluation device, which the respective detector address from the number of the previous increases of the line current and the measured value from the length of the respective switching delays. There will be linked the analog measured detector values to obtain differentiated fault or alarm messages.

However, it is not always possible or useful to collect the measured values from different detector types according to one to evaluate uniform procedures and to process them further. For example, is for automatic smoke alarms an integrating behavior is desirable in order to eliminate short-term disturbance variables. An alert should only take place when the signal has been present for a defined period of time. In the case of manual detectors, however, is Immediate notification is required after pressing a push button.

On the other hand, detectors, dl ·. · / 11 test / wake up, like

Revision, triggered, do not cause an alarm. They should only display the response in the control center. For such cases it is necessary to mark different types of messages or operating states and to notify the head office.

With the above-mentioned signaling systems, a detector identification, namely the detector type or the detector status, can generally be entered manually in the control panel for the relevant detector. For each Detectors in the system can have detector-specific identifiers (detector type, detector in revision. Detector not connected, etc.) can be saved in the control panel. This is generally done manually Entering an avoidance recognition is stored accordingly via a switch or a keyboard. The data entered must exactly match the actual status of the system. In the Errors caused by input or errors that occur when a detector is replaced can be attributed to the system cannot be detected with certainty and have serious consequences in the event of an alarm. Is used in such systems made a change, e.g. B. exchanged a Nieldertyp for another, because the room is different is used, this must also be entered accordingly in the control center.

From DE-PS 25 33 354 a device for the transmission of control commands in a fire protection system is known. In the device described there, the individual detectors have timers, as described in the aforementioned patents. These are used to transmit control commands used on the reporting line to the individual detectors, but only during the term of the timer the detector is ready to receive, and with control devices provided in the detector within a control cycle Only one timer can be switched on on the reporting line. and where the start time of each Timers in the control center as the address of the control element assigned to the relevant timing member can be evaluated.

The object of the invention is therefore to avoid manual input of the detector identification in the control center and therefor a method and a device for the automatic query of the detector identification and the To indicate the detector measured value. In doing so, control commands are to be transmitted using a known method of transferring control commands a detector-specific identification is recorded automatically and simultaneously with the detector measured value in the Centrally evaluated.

This object is achieved with the method according to the invention according to the characterizing features of Claim r resolved. With the control commands transmitted from the control center to the detectors, in detail Detector targeted switching devices controlled that the detector measured value at least for the duration of the change the next query cycle by a defined value. With a detector identification this change value can be set differently for each detector.

It is therefore possible with the method according to the invention. Control commands from the alarm control panel to individual To transmit detector. This detector control is used to transfer the detector to its To initiate identifier. The detector whose identification is to be queried is first activated. With After the switching command, a defined change is made in the detector of the measured value. From the degree of change (e.g. percentage enlargement or reduction) the generally microcomputer-controlled control center can do both the avoidance detection of the detector measured value determine as well as calculate the current measured value. So measured values are not lost. Another advantage is that not an absolute, but only a relative accuracy of the Measuring device in the headquarters is required.

In order to avoid possible transmission errors, there is a second one in the detector, from the Shah's order! controlled arranged in timer, with which the duration z. B. can be set for two or more query cycles of the predetermined change in the measured value. The detector identification can be transferred for several successive queries or only once.
With regard to the device, the object is achieved by the characterizing features of claim 3. For the targeted reception of the control commands, each detector has a threshold value switch that is connected to a coincidence circuit. This receives from its second input only during the running time of a first timing element eiti Signal! For the duration determined with the second timer, this controls a switching device that is assigned to an identifier. The identifier is connected in parallel to a transducer so that the measured value of the detector is passed via the identifier to input jo of the first timer. If the switching device is not activated, the uninfluenced detector measured value is sent to the first timing element. If a specific detector has received a switching command, the detector measured value is changed by a defined value that can be set on the identifier on the basis of the identifier.

With the aid of the drawing, the method according to the invention and the device for this are illustrated in two examples explained in more detail. the

F i g. 1 and 2 each show a basic circuit diagram of a milker for a predeterminable change in the detector measured value.

1 shows the circuit diagram of a detector M. according to the invention which is connected to the signaling center via a signaling line ML. The message line ML consists of conductors 1 and 2, between which the voltage U is located. The detector essentially contains a first timing element TI, which is set in motion when the voltage is applied. The running time of the timing element Ti is influenced by the transducer MW . Since the line voltage U is briefly switched off for synchronization at the beginning of an interrogation cycle. i ^r .i? provided in capacitor CI, which supplies the transducer with voltage during this time. A diode D 1 prevents backfeeding.

A threshold value switch SW compares the voltage on the signaling line ML via the voltage divider R MR 2 with a predetermined threshold sw. Changes in the time in which the timer Ti is running, the voltage on the line such that the threshold value switch SW is responsive, so is this temporal coincidence of the two signals is evaluated as a control command via the coincidence element KO. This control command serves as a switching command for a defined change in the detector measured value. The control command is passed via a second timing element T2 with which the duration of the change in the measured value can be set. The second timing element 7 "2 is here from a monoflop MF

educated. The monostable multivibrator / W / 'is triggered with the output signal of the coincidence element KO. which saves the control command at least for the duration of the query. The storage / eil is determined by Ri and Ci . The output Q of the monoflop MF controls ■> the switching device SE . This has a first transistor 7V? 2, which has a high resistance and blocks the second transistor TR 3 via the resistors R 5 and R 6. As a result, the voltage divider with which the alarm detection is set, consisting of the resistors R 3 and R 4, becomes effective and reduces the output signal of the transducer MW according to the division ratio /? 3 //? 4.

The message identification is determined by the voltage divider R3 / R4 . After the time determined by Ri and Ci r, the monoflop MF drops. The transistors TR 2 and 77? 3 become low resistance. so that R 3 is short-circuited. The voltage divider RMR 4 is ineffective. The full output voltage of the transducer MW is again present at the input of the timing element T \. j »

^For pure. 2 shows a circuit arrangement similar to FIG. I. Instead of the transistors TR 2 and TR 3, an analog switch AS is used. Instead of the monoflop MF, there is a capacitor C2 and a resistor R1 . Capacitor C2 is the resistance>■> Rl was slowly charged to the present at the capacitor C voltage. When a switching command is received, the output of the coincidence element KO triggers the transistor TR 4 . This becomes conductive and discharges the capacitor (72. The voltage on the capacitor in C2 controls the analog switch AS via the control input S1 . A low voltage at the control input St causes the connection between and A of the analog switch 45 to become high-resistance. In this case, the reduced Meldermeßwert, the leg, the identifier hold ji, handed over to the control center. for pure Meßwertübeigübc iSi the compound from e to A of Aiiaiogschalters AS low impedance, that is, the transistor 77? 4 is inhibited and the capacitor C2 charged.

The duration of the time element 72, ie the storage time of the elements MFb / .w. R 7 and C2 can be dimensioned in such a way that the identifier is transferred to the control center only once or in the case of several successive queries in order to detect possible transmission errors.

1 sheet of drawings

Claims (8)

Patent claims: 1. Procedure for the automatic query of the detector measured value and the detector detection in a hazard avoidance system with a control center and at least one message line to which one or more detectors are connected, with a time element that can be influenced by the detector measured value via a transducer to a for the detector address characteristic time is set in motion, and in each case during the runtime of the associated timer control commands for a specific detector on the line can be generated and received by the respective detector, characterized in that from the individual detectors (M) a during the Running time of this associated timing element (TX) incoming control command is evaluated as a switching command that with the switching 1 f L | * «F · * J * Γ" \ JI— C IJ Interrogation cycle based on an identifier (R 3 and R 4) in the respective detector, the detector measured value is changed by a specified value, and that the detector's identifier is determined from the extent of the change in the control center, whereby the current detector measured value of the respective detector (M ) is calculable. 2. The method according to claim I, characterized in that the Schalth'fehl recognized by the relevant detector er jo controls a second timing element (T2) with which the duration of the predetermined detector measured value change is set. 3. Device for performing: i of the method according to claim 1, wherein each Mt: dcr for evaluating the switching command has a threshold value switch (SW) with a downstream coincidence element (KO) , the second input of which is connected to the output of the first target element (Ti ) is connected. characterized in that a second timing element (T2) is connected downstream of the coincidence element (KO) in order to set the switching duration of the measured value change, so that each detector has a switching device (SE) which can be controlled by the second time element (T2) and which is connected to the identifier ( R 3 and R 4) is assigned, and that the output of the transducer (MW) is connected to the identifier (R 3 and R 4) and this is connected to the input (E) of the first timing element (Ti) . 4. Device according to claim 3, characterized in that the identifier is formed by a voltage divider (R 3 and R 4 ) connected in parallel to the transducer (MW) , the center tap of which leads to the input (E) of the first timing element (Te) , and that a resistor (R3) of the voltage divider (R 3 and R 4), the switching device (SE) is connected in parallel. 5. Device according to claim 3, characterized in that the second timing element (T2) is formed by a monoflop (MF) acted upon by a /? C element (Rrund C;), the output (Q) of which controls the switching device (SE) . 6. Device according to claim 3, characterized in that the second Zcitgliecl (T2) of an h> capacitor (C'2). a resistor (RT) and a transistor (TR 4) is formed. 7. Device according to claim 3, characterized in that the switching device (SE) of a first transistor (TR 2) and this via resistors (R 5 and /? 6) downstream of the second transistor f 77? 3) is formed. 8. Device according to claim 4, characterized in that the switching device (SE) is formed by an analog switch (AS) with a control input (Si) .