DE2811891A1 - Monitoring circuit for signalling lines - uses line which is fed with low or high current, insufficient or sufficient for blinking signals, to respond to ionisation detectors - Google Patents

Abstract

Signal monitoring is based on the closed circuit principle, and the line is terminated by a resistor. a blinking device supplied by the line current signals the state of local alarm tripped by one of a set of parallel sensors (M1-Mn). Rest current fed into the signalling line oscillates between a lower value insufficient for starting and/or maintaining the blinking process at a sensor, and higher value sufficient for this purpose. Evaluation of the signalling line voltage for indication of the line and/or sensor state is done only during the lower current intervals.

Description

Circuit arrangement for closed-circuit monitoring of signal lines

The invention relates to a circuit arrangement for monitoring quiescent current of signaling lines provided with a terminating resistor, their signaling devices for the local display of the caused by the triggering of such an encoder Alarm state with an optical1 flashing device fed by the message line current are equipped. Such a signaling line system contains, for example, ionization detectors, which are combined into individual message line lines, with each of the lines in turn feeds several ionization detectors or reports from these detectors to the control center transmits. To determine which detector has triggered within a line, the ionization detectors are provided with a glow lamp that when triggered of a detector ignites and thereby displays the relevant detector location. Around this reporting location To make it particularly visible, it is customary for the lamp in question to flash transfer, for example by rhythmic interruption of the feeder line Quiescent current.

But this requires a relatively high quiescent current and a Such a high quiescent current makes it difficult to safely monitor the line conditions, i.e. the display of a wire break, an earth fault or a short between two wires. The recording of these conditions and their delimitation an actual alarm is significantly clearer at low line currents and guaranteed with far greater security than with high line currents, which are required to control the flashing of the indicator lamps on the individual detectors.

In order to take this into account, the invention proposes a circuit arrangement before that both a proper flashing of the indicators on the individual Innisation detectors allow reliable detection of the line status as well enables. The invention achieves this in that the fed into a message line Quiescent current between a lower one for the Start-up and / or Keeping the flashing process going on one detector is insufficient and one higher 1 for this purpose the limit fluctuates sufficiently and that the evaluation of the signal line voltage to identify the respective line and / or detector status only in the lower quiescent current leading Intervallzeitbn takes place. The effort for this pendulum control the quiescent current can be greatly reduced that, as the invention further suggests setting a higher loop quiescent current through the Clockwise parallel connection of a lower resistance resistor to one in the The higher-ohmic higher-resistance monitoring intervals determine the level of the loop quiescent current Resistance of a voltage divider takes place at which both the supply voltage for the message line as well as those characterizing the respective line and detector status Analog voltages are tapped, with the low-impedance Resistance and the switch causing this parallel connection several message lines are jointly assigned - so that the message identification of the line relationships and is therefore largely independent of the detection of any line faults, it is advisable to have a detector in the event of an alarm that is independent of the line resistance -P; to connect constant voltage to the message line, in the corresponding way can be evaluated.

An exemplary embodiment of the invention is shown in the drawing.

The individual detection lines L1 - L10 contain ionization detectors M1 to Mn, the two wires of each line terminated by a terminal resistor RE is. The lines are switched on and off from the quiescent power supply with Using the switching transistor T2, which is supplied with a corresponding control voltage UA If the transistor T2 becomes conductive, the transistor T1 and the supply also conducts the line L1 takes place via the resistor R1 and the emitter-collector section of the Transistor Tl. The current that flows through the line is essentially from Resistor R1, the line resistance of line L1 and the terminal resistor RE certainly. The detector currents themselves are negligibly small.

The quiescent current itself is clocked with the help of transistors T3 and T4, i.e. the resistor R2 is temporarily connected in parallel to the resistor R1, see above that the line current increases cyclically, approximately to six times the value. This value is sufficient for a glow lamp ignited by a triggered detector to flash in order to identify the relevant triggered detector.

This flashing cycle is controlled by installing a corresponding one Pulse train to the line LT, which leads to the base of the transistor T4. Every time if, due to a corresponding pulse on the line LT, the transistor T4 switches through, the transistor T3 also switches through and thus sets the resistance R2 in parallel with resistor R1, which increases the corresponding current on the line Ll entails.

The resistor R2 and the transistors T3 and T4 with the one shown Voltage divider and other resistors are for the 10 lines shown L1 to LiO together.

The line voltage itself is applied to that by the resistors R5 and R6 formed voltage divider is tapped and the analog voltage prevailing there UAD is used to signal the respective line status or the detector status evaluated.

If a detector is triggered, it places one in a manner known per se Constant voltage to the line Li, which is in the evaluation device, which is connected to the Terminal UAD is connected, is detected and the corresponding alarm signal is switched on. Other changes in the analog voltage of the line are also made in the same way L1 to indicate a loop short, an earth fault or a wire break evaluated. The evaluation can again be common for all 10 lines.

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Claims (4)

Circuit arrangement for quiescent current monitoring of low lines P a t e n t a n s p r ü c h e: Circuit arrangement for the quiescent current monitoring of signaling lines provided with a terminating resistor to their signaling devices Local display of the alarm status caused by the triggering of a message transmitter equipped with an optical flashing device fed by the signal line current are, - characterized in that a signal line fed in, quiescent current between a lower one for starting and / or keeping the flashing process in motion on one detector is insufficient and a higher one is sufficient for this purpose Limit value fluctuates and that the evaluation of the low line voltage to display the The respective line and / or detector status only in the lower quiescent current leading interval times takes place 2. Circuit arrangement according to claim 1, characterized Recognizes that the setting of a higher loop quiescent current through the Clockwise parallel connection of a lower resistance resistor to one in the The higher-impedance monitoring intervals determine the cavity of the loop quiescent current Resistance of a voltage divider takes place, at which swohl the supply voltage for the reporting line as well as those characterizing the respective line and reporting status Analog voltages are tapped 3. Circuit arrangement according to claims 1 and 2, characterized in that the clockwise parallel-connected low-resistance Resistance and the switch effecting this parallel connection several low lines are assigned together 4. Circuit arrangement according to claim 1, characterized in that one of the line resisted by a detector in the event of an alarm independent constant voltage is connected to the detector line.