DE4426466A1 - Operating system for alarm device - Google Patents

Abstract

The system is constructed so that two specially operated sepn. elements (TE1,TE2) are arranged pref. so as to divide the loop into three sections (PL1-PL3) corresp. to gps. (MG1-MG3) of fire-alarm devices (M1-M3 etc.) all having the same function and not needing to be distinguished by separate addresses. Each sepn. element has a distinctive address and is connected between the two prim. lines (a,b) with a signal processor and control unit operating on either messages from the central station (Z) or voltage levels on the lines.

Description

The invention relates to an arrangement and a method to operate hazard detectors that are connected to a two-wire primary line on the Central of a hazard alarm system are connected, whereby in the primary line at least two separators with one Signal evaluation and control device and with at least a switching element arranged in one of the line wires are.

From European patent application EP 0 111 178-A1 a monitoring system with several, chain-like on one Detector line known detectors, in which each detector by means of an electronic circuit the information about its current state (operational readiness, war alarm, fault) to the control center. Mel is there delleitung or line formed as a loop. The circuit enables the identification of the message number and the detector location- in case of changes of state. With this well-known system, which works on the so-called pulse signaling principle, each detector is given its own address and it a line section which has a short circuit can be separated during operation.

In DE-36 37 681-A1 a so-called ter short-circuit separator proposed, which is also separately can be controlled. The use of limit indicators is not possible with these known hazard alarm systems.

In European patent application EP 0 532 787-A1 is for a hazard detection system a device for operating Hazard detectors described on a loop Double line are connected. There is roughly in the middle  the signaling loop a separator arranged in the fault free operation (normal case) the message loop is opened holds, each loop as a stub or star line is operated. In the event of a fault (short circuit, line under break) the isolator closes the signaling loop so that the loop can be operated from both sides. About the type of detectors used and a possibility of Addressing is nothing in the known hazard alarm system refer to.

It is therefore an object of the invention, an arrangement and a Device for operating a hazard detection system with Specify limit indicators which make it possible for several assign a collective address to other detectors.

This object is achieved with an arrangement according to claim 1 and with a method according to claim 2.

The arrangement according to the invention and the method for operating the arrangement permits, in an advantageous and inexpensive manner, normal limit detectors with collective address, aut arken separating elements to be used in simple, already known control centers. The invention is explained in more detail with reference to FIGS. 1 to 3. Show it

Fig. 1 shows a known loop-shaped detector arrangement

Fig. 2 shows the arrangement according to the invention and

Fig. 3 shows a separating element, schematically.

In Fig. 1, the usual and known Schleifenan arrangement is shown schematically. At the center Z, the a- and the b-wire of the beginning and at the connection A2, the a- and the b-wire of the end of the primary line PL or signaling loop MS are connected to the connection A1. The total number of detectors is, for example, m, which are arranged between or in the above-mentioned message line towards MLh and the message line drawn below, MLr. In the normal case of the undisturbed loop, this is completely from one side, e.g. B. operated from A1, while A2 is separated internally. To check the functionality, the transmission direction can be reversed at certain time intervals and switched on at least briefly from A2, in which case A1 is separated. Only in the event of a malfunction does operation from both sides take place, then both A1 and A2 are active. In this case, the faulty line section should be separated in the separating elements, not shown here, in the course of the signaling line in such a way that it cannot be reached from either side. The detectors located in the remote line section are of course no longer accessible and for technical reasons, functional restrictions are also common and permissible for the others.

In Fig. 2, the arrangement according to the invention is shown schematically. Here, the representation of the usual loop arrangement is exemplarily supplemented by two specially operated separating elements TE1 and TE2, which are preferably arranged such that the three resulting loop sections PL1 to PL3 correspond to fire protection relevant detector groups MG1 to MG3. The detector group MG1 consists of the detectors M1 to M3, which are arranged between A1 and the separating element TE on the detection line PL1. The detector group MG2 with the detector M4 and M5 lies between the two separating elements TE1 and TE2, the detector group MG3 with the detectors M6 to M8 lies between the separating element TE2 and the connection A2 in the center. All detectors in a detector group have the same meaning in terms of fire protection, so they do not have to be differentiated and may therefore have the same address. Since the separating elements TE can be addressed, a collective address can be assigned to the individual detector groups.

The separating element TE shown in Fig. 3 has an adjustable or self-generating address and is via the terminals a1 and b1 with the signal line or the primary line section PL1 and via the terminals a2 and b2 with the message line back or the primary line section PL2 connected. The signal evaluation and control device ST of the separating element TE detects the signals of the primary line section PL1 via Ma or Mb1 and the signals of the primary line section PL2 via the connections Ma and Mb2 and actuates the switch S, which is normally closed, as a function thereof. The signals are either instructions (telegrams) from the control center Z and / or voltage levels on the line, which are present without a special response from the control center Z. The signal evaluation and control device ST is designed in such a way that in the event of a line short-circuit the adjacent separating elements open and the disturbed line section is separated. According to the invention, inexpensive limit detectors with the so-called collective address are used, which is formed by the arrangement of the addressable separating elements.

The following briefly describes the procedure for operating this Detector arrangement described.

There will be normal limit detectors as well as normal interface construction groups used in the headquarters. The separators are like this designed so that at a certain line tension or separated under a certain value of this line tension and as long as there is a "short circuit", too do not switch on again. The addressing of the separators takes place according to the pulse signaling technique with the creation of the Quiescent or line tension, the respective separating element turns on the next line section. This is in the head office clearly identifiable and thus as an address storable. In normal operation, the separators are broken switches. To switch on in the center from the An circuit A1 a line voltage of 20 volts, for example applied to the primary signal line PL, which initially the Mel the M1 to M3 and the separating element TE1 reached. After TE1  has recognized that the applied line voltage is greater than that voltage defined for a short circuit of less than at for example 3 volts is present, the isolating element switches through, so that the line voltage now also the detectors M4, M5 and that Separating element TE2 reached. This also switches through with which the detectors M6 to M8 (and the connection A2 the central Z) can be reached. Now a detector speaks e.g. B. the detector M4, on (alarm), it is known to break open limited to a maximum current of, for example, 15 mA Line voltage to for example 6 volts together, which in the Interface A1 or possibly in A2 recognized as "alarm" becomes. This alarm is forwarded in a known manner and causes a periodic in a known manner Increase the current limit to z. B. 50 mA, which the addressed M4 detector is caused to look.

Occurs on the detection line, i.e. H. the primary line PL, e.g. B. a short circuit between detector M4 and detector M5, the current-limited line voltage breaks down to a voltage below a value of 3 volts together. The dividers TE1 and TE2 then open and do not switch the line again as long as the short circuit is present. Then there are So the zones MG1 from the interface A1 and the Detector group MG3 accessible from the A2 interface and in normally alarmable. Only the M4 and M5 detectors the detector group MG2, as is known per se, are no longer reachable.

In a development of the invention, the separating element can be in one the detector must be integrated. As a line switch (S) Semiconductors used, preferably VMOS transistors. For the Addressing the separators can be used instead of the usual Pulse detector technology uses a pulse or frequency code the. There can also be an address memory in each separating element be provided in which the address can be written so that each separating element is also targeted from the control center can be controlled.

Claims (4)

1. Arrangement for operating hazard detectors (M1, M2,...), Which are connected to a signaling loop (MS) formed as a two-wire (a, b) primary line (PL) at the center (Z) of a hazard warning system, where in the primary line (PL) at least two separating elements (TE1, TE2,...) with a signal evaluation and control device (ST) and with at least one switching element (S) are arranged in one of the line wires (a, b), thereby characterized in that so-called limit detectors are provided, which do not have their own address, that the separating elements (TE1, TE2,...) are addressable and because of their arrangement in the signaling primary line (PL) at least three line sections (PL1, PL2, PL3) with a respective Mel dergruppe (MG1, MG2,...) Form, and that each Mel dergruppe (MG1, MG2,...) is assigned a collective address, the collective address of the alarm-triggering detector can be determined in the event of an alarm. 2. A method of operating the arrangement according to claim 1, characterized in that, as in the so-called pulse mel Detechnik usual, with the creation of the rest or line chip the respective separating element (TE1, TE2,...) the successor line section (PL2, PL3,...) turns on, with in the central (Z) can determine the address in question, and that when the primary line is at rest, the Separating elements (TE1, TE2,...) Remain switched through. 3. The method according to claim 2, characterized in that in the event of an alarm the primary reporting device (PL) temporarily from the central power supply is switched off and the address is switched on again the separating elements is determined, and that due to the sudden strong increase in electricity on the part of the alarm-triggering Mel the line voltage dip of the relevant line cut is determined.   4. The method according to claim 2 or 3, characterized in that the primary line (PL) in normal fall only from one side (A1), in the event of a short circuit from both Pages (A1 and A2) is operated, the separating element (TE1, TE2,...) By means of line voltage monitoring in the signal evaluation and control device (ST) the short finally recognizes and the corresponding line section Opening the switch (S) disconnects.