DE3620681C2 - - Google Patents

Description

The invention relates to a circuit arrangement for Identification of hazard detectors according to the generic term of claim 1.

From DE-PS 29 35 335 is a DC system known that works on the principle of current change, where the resulting resistance values must be measured. To do this are the individual Detector designed so that contact with the alarm one additional resistor each in the reporting line is switched that the total resistance decreases. In addition, it is provided that by changeable Tensions and by polarizing the voltages the pure Line resistance and the number of connected Detector can be determined in idle status. Since all In the event of an alarm, only a change in resistance is reported cause and in the case of several alarms giving the Total resistance is getting lower, with the individual values move closer together is the number of connectable Detector limited because of the resolving power the measuring device cannot be of any size. In addition, resistance values can be used for the alarm case correspond to those measured in the idle state, so that separate Measurements with different voltages required are for the idle state and for the alarm state.

A method and facility for identifying individuals Detector in burglar or fire alarm systems is out of the DE-PS 29 39 462 known. Here the individual Detectors like four poles connected in series, and the alarm Contact is in the line loop. This has the consequence that the entire Line loop is live, and that only in the event of an alarm the triggering detector which is closest to the control center is, can be recognized. To recognize the idle state and from alarm conditions the current resistance value the line cyclically with characteristic for different cases known resistance values compared. Here are also mentioned in DE-PS 29 35 355 different voltages have been created and reversed polarity, making different Alarm criteria are recognizable. However, it is always to detect only one triggered detector during a cycle, and other detectors can only be recognized when all upstream detectors are in the rest position are.

In these known signaling systems, and also in the DE-OS 32 11 550 mentioned below is the alarm Contact not directly connected to a diode, so that the polarity of a reporting criterion is not Detection of the identity of the detector can be exploited can.

From DE-OS 32 11 550, where a DC system it is known to execute a detection line in such a way that each triggered detector has a specific one Resistance value of the zone is set. There is in everyone Detector a resistor connected in series in the detection line and a signaling switch arranged parallel to the signaling line, which is open in the idle state. This DC system So works on the current amplification principle, d. H. an alarm or fault message is issued when the Quiescent current increases. At the headquarters is for investigation the instantaneous resistance value of the zone Arranged measuring device, the evaluation device is connected downstream. Using the determined by the measuring device The resistance value of the zone can be determined which detector has addressed.

The number of detectors that can be connected However, arrangement depends on how many different ones Resistance values the measuring device clearly from each other can distinguish. The resolution and the whole Measuring range of the measuring device is therefore a measure of how many individual detectors to those in this DC system to a reporting line in the manner described there  can be connected. The number of connectable The detector is therefore dependent on the Condition of the measuring device limited.

Based on the state of the art described above, it is Object of the invention to provide a circuit arrangement with which the number of connectable detectors up to a maximum of twice the amount can be enlarged. This task is characterized by solved as specified in claim 1.

It is advantageously achieved that a another group of detectors similar to the detection line can be connected, only between the first group and the second group the lines of Detection line must be crossed. This means none additional effort, especially since the detectors of the second group identical in structure to the detectors of the first group are. Conversely, it can be said that the measuring device can be simplified if a predetermined number of detectors according to the invention divided into two groups becomes. Further developments of the invention result from the Subclaims. By using a digital / analog Transducer as a measuring device has the advantage that a downstream evaluation device Resistance value of the detection line as a digital word in parallel can be offered.

An embodiment of the invention is explained below with reference to a drawing. The part of a hazard alarm system essential for the invention consists, as shown in the drawing, of an alarm line ML , a current pole device U , a measuring device ME and an evaluation device AW , to which a display device ANZ is connected. The individual detectors M 1 to M 8 are of identical design and each contain a resistor R 1 to R 8 , a diode D 1 to D 8 and a normally closed contact K 1 to K 8 . The resistors RM 1 , RM 2 , RM 3 and RM 5 , RM 6 and RM 7 to be introduced into the ML detection line can also be arranged in the associated detectors. In the case of those detectors M 4 , M 8 of a group Gr 1 , Gr 2 , which are each connected to the start of the detection line ML , this resistance is then short-circuited. Therefore it does not appear in the drawing. As can be seen from the drawing, the lines of the signaling line are crossed between the first group Gr 1 and the second group Gr 2 .

In the switching position of the current pole device U shown , the current on the signal line ML only flows within the first group Gr 1 , where it is divided between the individual detectors M 1 , M 2 , M 3 and M 4 connected there . In the idle state, the total resistance at the analog input AE of the analog / digital converter used as the measuring device ME , resulting in the shown idle position of all detectors, results in a voltage value with the aid of which the total resistance of the detection line ML is detected. When one or more detectors are triggered, a current weakening occurs on the ML detection line because the current no longer flows through one or more parallel branches and the total resistance increases. Since in the given example 4 detectors M 1 , M 2 , M 3 and M 4 are connected, there are 16 different possible combinations, including the idle state, when detectors M 1 to M 4 trigger. With this circuit arrangement it is therefore possible to both detect the response of a single detector and to detect the simultaneous triggering of several detectors. With each of the 16 possible combinations mentioned, a special resistance value arises, which results from the dimensioning of the resistors R and RM through which the current flows. The resulting partial voltage at the analog input AE of the analog / digital converter used as measuring device ME leads to the analog / digital converter delivering a bit combination corresponding to the resistance value to the evaluation device AW . This is then able to control the display device ANZ correctly.

When carrying out a message query, the current pole device U is always actuated after the state of the first group Gr 1 has been checked, so that the current on the signal line ML flows exclusively through the detectors M 5 to M 8 of the second group Gr 2 . Here, too, there are 16 possible combinations if detectors M 5 to M 8 of this group address Gr 2 . The total resistance on the detection line ML will, however, be higher in each individual case by the amount that results from the series connection of the resistors RM 1 , RM 2 and RM 3 within the first group Gr 1 in the detection line ML . This results in a lower current on the detection line ML so that a higher voltage is set at the analog input AE of the analog / digital converter in the second group Gr 2 than is the case in the first group Gr 1 . In this way, the current situation in the second group Gr 2 can be clearly distinguished from the situation in the first group Gr 1 , so that a total of 16 + 16 = 32 different possible combinations can be detected. It is therefore possible to exclude up to twice as many detectors compared to the simple design of an ML detection line.

Claims (1)

Circuit arrangement for identifying hazard detectors which are arranged in a detection line which operates on the principle of current change and is connected to a hazard detection system, wherein resistors which are connected in series and are connected in series are arranged between the individual detectors connected in parallel to the detection line, and one in the hazard detection system suitable measuring device and a downstream evaluation device are provided for determining the instantaneous resistance value of the detection line, characterized in that
that connected in each parallel to the signaling line (ML), identically performed detector (M 1 to M 8) includes a diode in the circuit of the actuated when an alarm handover contact (K to K 8 1) located, in each case identically polarized (D 1 to D 8 ) and a resistor ( R 1 to R 8 ) are arranged,
that distinguishable to the signaling line (ML) to the terminal the maximum number of the measuring device (ME) detector (M 1 to M 4), a further group of at most the same number of detectors (M 5 to M 8) (Gr 2) can be connected, wherein the Detection line ( ML ) is crossed between the two groups ( Gr 1 , Gr 2 ),
that the two groups ( Gr 1 , Gr 2 ) of detectors ( M 1 to M 4 , or M 5 to M 8 ) are detected separately with the aid of a current pole device (U) , and
that an analog-digital converter is used as the measuring device (ME) , the digitally output measured values of the evaluation device (AW) for determining and displaying triggered detectors (M 1 to M 8 ) are offered, with several detectors (M 1 to M 8 ) are recognizable.