DE2939494B2 - Circuit arrangement for intrusion or fire alarm systems - Google Patents

Abstract

1. A circuit arrangement for burglar and fire alarm systems for monitoring individual alarm lines (L1, L2, ...) in respect of alarm sabotage and disturbance in accordance with the rest current principle, having a current measuring device (MI) which is arranged in a central unit (Z) in the alarm line (L1) in order to determine the line resistance and whose output is connected to a plurality of comparators (K1, K2, K3), and having alarm units (M1, M2, ...) which respectively possess an alarm contact (Ka) and a sabotage contact (KS) which are connected to one and the same line (L1), characterised in that a plurality of alarm units (M1, M2, ...) are connected to one line (L1), that in the individual alarm units (M1, M2, ...), there is arranged a first resistor (RS) in series with the sabotage contact (KS) in line (L1) and the series connection of a second resistor (RA) and the alarm contact (KA) is arranged parallel to the first resistor (RS), where the resistance values are so dimensioned that the response of an alarm contact (KA) or the simultaneous response of the alarm contacts of a plurality of alarm units effects a line resistance change which is distinguishable from the response of a sabotage contact (KS) and which indicates a separate alarm and sabotage call (A, S) which are independent of one another.

Description

The invention relates to a burglary, hold-up and / or fire alarm system. Such Mcldeanlagen In addition to the actual alarm detectors, they also have so-called sabotage detectors. The sabotage alarms protect the alarm detector from manipulation. The alarm indicators show next to the actual alarm contact still has an additional contact, which is opened in the event of unauthorized opening of the detector, z. B. Acceptance of the Housing cover, a so-called sabotage contact is actuated. The alarm detectors should be independent of the sabotage detectors can be sharpened or blurred. In conventional systems, alarm mekier and sabotage alarms via two different lines, generally /.weidralilleiliingen, to the evaluating center connected. i) amii are the Lined / was! 'Eirennl switchable, but the Λη / alil ilei required lines is twice as high as the number of alarm lines.

From DE-OS 21 54 537 a fire alarm system is known in which the line with a in the control center a voltage divider circuit arranged voltage measuring device is monitored for alarm, short circuit, interruption and earth fault. How the evaluation should take place in detail is not specified described. The detectors can be connected in parallel to or in series in the line. It will be next to the The above-mentioned malfunctions are only monitored for an alarm, for example in the event of a fire. A surveillance on Sabotage is not possible there.

From DE-PS 17 66 440 a fire alarm system is known, in the central means for detection the impedance are provided between the lines that carry the current flowing through the zones measure and use a deviation of this current from zero as a criterion for triggering an alarm or fault. This fire alarm system is monitored for alarm and has its own test process, whereby the polarity of the supply voltage is changed, the detectors are checked for possible faults. Such a fire alarm system requires a more complicated detector circuit. But it does not allow any Monitoring for sabotage, which should be able to be evaluated independently of an alarm message.

The object of the invention is to provide a Mcldeanlage To create the type mentioned at the beginning, in which only one for both the alarm and the sabotage message Line, generally a two-wire line, is required. Appropriate training is required for this Detectors and a suitable evaluation device are required in the control center.

This object is achieved according to the invention in that several alarm and sabotage detectors on and are connected to the same line that an evaluation device is provided in a control center, by which alarm and sabotage messages can be evaluated independently of one another, with one in the line Current device for measuring line resistance is arranged, the output of which is connected to a plurality of Komparaiorcn, and which corresponds to the Number of comparators predetermined, different current limit values as comparison values received, so that a separate alarm and sabotage message can be displayed.

An advantage of the circuit arrangement according to the invention is that only half of the Lines for the required reporting lines to the control center are necessary. The one located in the headquarters Evaluation device monitors the from a voltage sourcec electricity placed on the line. On a current measuring device arranged in the line, the The current flowing along the line and thus the resistance of the line are measured and on several comparators that the current measuring device are arranged. These receive predetermined different ones .Current limit values which correspond to the contradictory values / Line at rest. Based on the comparison of the measured line values with the specified limit values are generated by logical links between the output signals Comparators alarm or sabotage messages are displayed.

/ Unfortunately, the Λnotification is peeled off bar. without affecting sabotage / u, see above dall manipulation of the detectors or the

Lines can also be recognized when the alarm detectors are disarmed.

Another advantage of the arrangement according to the invention is given that it is in a microcomputer-controlled control center can be integrated well, with all line current values for the most varied Conditions on the line are measured after the system has been switched on and stored in a read-write memory can be saved. These values then serve as comparison values for the different Message types.

The present invention differs from the known arrangement mentioned at the beginning advantageously in that only one resistor is arranged in the detectors next to the alarm contact and no rectifier element is provided. Simultaneous monitoring for sabotage with the same The alarm melcer line requires the arrangement of a further contact and a further resistor.

Hereinafter reference to the single ^Ze: hnung an embodiment of the invention.

The figure shows the evaluation device in the control center Z and a line L 1 with a detector M 1 and a line termination RLA . A voltage source P supplies the line L 1 with the voltage U. In the line L 1, several detectors M 1, M2 ... are connected in series, only one of which is shown. The line LX is terminated with the resistor RLA. The current / flowing on the line L 1 is determined by the resistors RA, RS of the detectors M, the line termination RLA and the resistance of the line. In the center Zist a current measuring device Ml is connected in series, the resistance value of which is chosen to be so small that it practically does not affect the line current. The line current / is a measure of the; Total resistance of the signal line L I.

The value of the measured line current / is fed from the output of the measuring device Ml to the first inputs of three comparators A1, K2, K3 . The Komparatorcn are conventional Vergleichsgliedcr, ι ■ / .. B. BE TCA 345A (Siemens) which compare a continuously variable size with a second size of reverence size. As long as the constantly changing variable is greater than the comparison value, the output has a level that is e.g. B. corresponds to the logical "0", in the other case ι corresponds to the logical "I". The specified current limit values are applied to the second input of the three comparators, e.g. B. at the comparator K 1 a minimum permissible current value Iniin, at the comparator K 2 a current value A> equal to zero and at the comparator K 3 a maximum permissible current value Imax. The output of the comparator K 1 goes to a first input of an AND element G J, the output of the comparator K 2 gehl on the one hand via a negation element G 2 to the second input of the AND element C 1 and on the other hand to a first input of an OR Element G 3. The output of the comparator K 3 leads to the second input of the OR element G 3. If a detector M is anspi icht or another fault is present, the output signal of the OR element GZ shows a sabotage message "5", the output signal of the AND element G 1 sends an alarm message »A« . With the switch SA connected downstream of the AND element G 1, the alarm indicators can be disarmed.

The detectors M are connected in series to line L. Each detector has a sabotage contact / CS 'and a resistor RS in series with it. In parallel to this "sabotage" resistor RS there is also a series connection of the alarm contact KA and the "alarm" resistor RA. The resistance values are selected in such a way that the response of several alarm detectors cannot simulate a sabotage message.

The circuit arrangement works as follows:

The line current / measured in the power consumption device Ml in the control center is sent to the comparator K 1.

. K 2, K 3 supplied. In the normal case, ie there is no alarm, sabotage or other fault message, the line has a certain quiescent current value. The three comparators now check the quiescent current value. The comparator K 1 compares the line current / with the lower tolerance value of the quiescent current Iniin. The comparator K 2 checks whether the quiescent current is approaching zero (I _n = 0). The comparator A1 3 compares the line current / with the upper tolerance limit of the quiescent current Imax. In the event of deviations, the outputs of the comparators K \, K2, K 3 are activated and a message is displayed.

Line sabotage notification is given when either the KS sabotage contact is open and thus / = 0, or the line of the reporting line is briefly closed or a detector is bypassed. This means that the line current / is greater than the maximum permissible quiescent current Imax. The first case is indicated via the output of the comparator K 2, the second and third I all is indicated via the comparator K 3 and the OR element C 3 connected downstream of the two comparators K 2 and K i as a sabotage message "S" . An alarm message is present only when th ^e line current / less than the lower limit of the line current Imin but is not zero. The alarm message »A«

ι is displayed via the outputs of the comparators K I and K 2 and the logic elements G 1 and G 2.

1 sheet of drawings

Claims (4)

Patent claims: 1. Circuit arrangement for intrusion and fire alarm systems for alarm, sabotage and fault monitoring of individual detection lines according to the closed-circuit principle, characterized in that several alarm and sabotage detectors (Mi, M2 ...) are connected to one and the same line (L 1) that an evaluation device is provided in a control center (Z) through which alarm and sabotage messages can be evaluated independently of one another, with a current measuring device (Ml) for determining line resistance being arranged in the line, the output of which is connected to a plurality of comparators (Ki , K 2, K 3) and the different resistance or current limit values (1min, I ₀ , lmax) determined in advance according to the number of comparators (Ki, K2, K3) are obtained as comparison variables, so that the comparators ( Ki, K 2, K 3) downstream logic elements (G 1, C 2, G 3) a separate alarm and sabotage message (A, S) can be displayed. 2. Circuit arrangement according to claim!, Characterized in that a switching element (SA) for disarming the alarm detector is provided in the evaluation device, the sabotage detectors remaining unaffected. 3. Circuit arrangement according to claim 1 or 2, characterized in that in a microcomputer controlled Central the rest chronometric values per line and the resistance value jumps or changes in current flow in the event of an alarm and sabotage after the system has been switched on, all in one Read / write memories can be stored and accessed for comparison purposes. 4. Circuit arrangement according to one of the preceding claims, characterized in that in the individual detectors (Mi, M2, ...) a first resistor (RS) is arranged in series with a sabotage contact (KS) in the line (L 1), that the series connection of a second resistor (RA) and an alarm contact (KA) is arranged in parallel with this first resistor (RS), the resistance values being dimensioned in such a way that no sabotage or other malfunction messages can be faked when several alarms per line respond.