DE3715196C2 - - Google Patents

Description

The invention relates to a hazard detection system according to the Preamble of claim 1.

Such a hazard alarm system is already known. So is a device and a method in DE-AS 25 33 382 described for the transmission of measured values in a fire alarm system, in which the measured values of the individual, on reporting lines lying fire alarm to a central evaluation device transmitted and there to obtain differentiated or Alarm messages can be linked. Since the detector address from the Sequence of the polling cycle is won is in the detector no address setting necessary.

In EP-OS 00 93 872 a method for the transmission of Measured values described in a monitoring system in which the measuring points are also chain-like on signal lines. The known methods set a switching element in each measuring point ahead, which staggered in time to the signal line switches on the measuring point.

It is already known per se, a measuring point with a To provide address memory and a switching means, which with the help of one transmitted by the head office via the line Command is closable. Such a measuring point is in described in EP-OS 00 93 872. After opening all Switching means is first one from the control center Allocated address, which is stored in the measuring point becomes. The measuring point can thus be addressed. Subsequently the control center causes the switching means to close Measuring point, which leads the line to the next measuring point is switched through. These processes are repeated at every measuring point. The connection of sensors is used in the stated nothing further.

Furthermore, DE-OS 28 17 121 is a hazard detection system known, in which the system itself from a number is formed by individual system blocks. It points each system block connection devices for one or several detectors or for one or more subordinate ones System blocks and a programmed controller for querying and evaluation of the incoming detector signals. The system blocks are connected to each other with lines in such a way that one of the system blocks can be used as a control center and the other system blocks of this center in one or more hierarchical levels. There for everyone Detectors have an individual connection in a system block is in the detector itself no switching means of the described Kind needed.

The object of the invention is now the input train the hazard detection system to the extent that these for the safe operation of all types of sensors or Detectors and controllable devices such as Block locks is suitable.

This task is characterized by the characteristics of the Part of claim 1 solved.

By using a uniformly constructed line module with a uniform detector interface the connection of any hazard detection equipment possible on the line module. It won't only messages from sensors to the line module Central transmitted, but also control commands from the Central via the line module to one on the detector interface connected equipment passed on, for example to arm one on the line module connected block lock.  

Further advantages result from the subclaims.

The invention is illustrated by an embodiment explained which is shown in the drawing. It shows

Fig. 1 is a block diagram of an alarm system,

Fig. 2 is a block diagram of a line block,

Fig. 3 shows a circuit arrangement of the detector interface and

Fig. 4 shows the time diagram for the exchange of information on the line.

In the example shown in FIG. 1, block diagram of an alarm system Ge drive a plurality of line blocks LB via a line L are connected to a central station Z, wherein each line block LB is, for example, connected to a detector M. The line L can be connected in a star shape or as an annular loop to the control center Z, it is used to supply power to the line modules LB and possibly also to the connected detectors M and to exchange data between the control center Z and the line module LB.

The center Z has a memory SP for each line L. its own memory area, which has as many memory spaces has how line blocks on the line L in question are connected. The memory SP has only one memory area, if only one line L is connected to the central station Z. otherwise there is a separate memory area for each line L. intended. In the memory SP is for each line block the address and the type of the one connected to the LB line module M Melders entered, is also a Identification of the operating status of the individual detectors M in Storage SP conceivable.

When the hazard alarm system is started up, from the center Z the supply voltage to the line L created. First there is between the entrance E and the Output A of each line module LB no connection, so that only the ver directly via the line L with the center Z bound line module LB receives voltage. The head office Z first transmits an address, which for all lines building blocks LB is the same, for example a data word 00000000 or a specific data word, which automatically from a read-only memory in the address memory of the Line block LB is loaded; after this address is the actual individual address of the line module transmitted from the control center and ge in the address memory load. The line module LB is now from the head office addressable. The control center then transmits Z to the line module LB a command, the input E with the  Connect output A, whereupon the supply voltage to the next line block LB arrives. With this lines Repeat the block and the other line blocks the processes already described, whereby by the Missing the address after supply voltage systems an assignment of an address in the line module is possible because the line blocks in front of it already have an individual address.

The line module LB ( FIG. 2) has a control device ST, for example in the form of a microprocessor. A parallel / series converter PS is connected to the control device ST and can be designed, for example, as a shift register. The parallel / series converter PS is connected on the transmitting and receiving sides via corresponding amplifiers V to the input E and the output A, so that all information which is transmitted via the line L passes through it. The control device ST has an address register in which the assigned address is stored. If the address contained in the parallel / series converter coincides with that of the address register - the command subsequently transmitted is transmitted to the control device or a message from the control device ST is transmitted to line L via the parallel / series converter. As soon as voltage is present on line L, data exchange between the control center and the relevant line module LB is possible. In this state, the address register of the control device ST can either contain only zeros as an address or, for safety reasons, also contain an address which has been read from a read-only memory of the control device ST and has been transferred to the address register as soon as the supply voltage is applied to the control device ST. The address from the read-only memory can be the same for all line modules LB.

Now under the address contained in the address register then the line module LB from the central Z addressed, the address in question in the parallel /  Series converter is transmitted. If the comparison of the im Parallel / serial converter PS included address with that If there is a match in the address register, this is the following transferred individual address from the parallel / series converter PS taken into the control device ST and transferred to the address register. At this address is the Line module LB can be controlled individually. It is also one Another way to take over the address is conceivable by the Control device ST is set such that after switching on the transmitted address does not match the supply voltage subjected to the comparison and immediately into the address register is transmitted.  

By the same addressing or a new addressing the line module LB from the central Z can now Receive command to close the switching means S. The switching medium, which as mechanical contact or as electronic switch can be formed, connects the Input E with output A, followed by the supply voltage to the input E of the next one lying in line L. Line block LB arrives. They are already repeating themselves here described operations. As soon as the supply voltage abge is switched, the switching means S is opened again.

With the control device ST there is also a detector interface MS connected, which different inputs (S) and outputs (E) having. This is used to connect the actual detector M. To supply the detector with power, connection V is provided see while through port D the detector interface MS for recording information from detector M is riding.

The detectors MS interface of FIG. 3 comprises Empfangsein gears E 1, E 2, and D, which are connected via a resistor to the positive operating voltage. In this case the detector signal must have the value "L". The receive inputs E 3 and E 4 are connected to a resistance to ground, so that the detector signal must have the value "H". The transmit / receive connections S 5 to S 8 are also connected via a resistor to the positive operating voltage, so that the detector signal must also have the value "L". However, a signal can also be sent to the detector via the transistor TS, which also has the value "L".

The detector interface MS according to Fig. 2 and Fig. 3 is used to connect motion detectors, passive glass break detectors, simple fire detectors, fire detectors with measured value transmission, block locks, emergency call detectors, branch distributors, line concentrators, etc., whereby the relevant transmit and receive connections are connected as required will.

Addresses, commands and messages are transmitted on line L in the form of data words DA with a length of 8 bits (see FIG. 4) which are supplemented by a parity bit P. As is known, the parity bit is used for data backup and is used on the receiving side to check the transmitted information. The data word DA is preceded by a start bit and followed by a stop bit. The whole forms a section A. The information is transmitted by means of a frame R, the address being transmitted first in section A 1 and then possibly a command for the relevant line module LB in section A 2 . After a pause P 1 , the activated line module LB has the option of transmitting a message to the center Z in section A 3 . After a pause P 2 has elapsed, the same line module LB or another line module can be controlled by the control center Z in the manner already described. The breaks P 1 and P 2 serve to separate the direction during transmission, so that there is a sufficient safety time between transmission in one direction and transmission in the other direction, within which reflections and transient processes have certainly subsided.

The hazard alarm system according to the invention enables the specific and repeated activation of a certain line module, the addresses from the memory SP ( FIG. 1) of the central station Z not only being read cyclically but also being made available according to other aspects. The hazard alarm system also enables the querying and transmission of measured values from detectors to the control center Z. The measured values and alarm messages from the line modules LB are evaluated in control center Z and printed out, displayed, with information identifying the relevant detector, etc. As a transmission method on the Line L all known transmission methods can be used, especially those in which the DC component is as small as possible, so that transmission is also possible via normal two-wire copper lines. The line module LB itself can be used, for example, in the base of a detector.

Not only a single one can be connected to the line module LB. Detector but also an evaluation circuit can be connected, which is used to connect a loop with several detectors.

To increase the security of the alarm system Against sabotage, the address assignment can be made regularly or irregular intervals are made, a scrambling of the addresses of the line modules is provided. That means that in regular or irregular distances between the individual line modules get different addresses.

Claims (12)

1.Danger alarm system with a central unit and a large number of measuring points connected to one or more two-wire star and / or loop lines, the lines transmitting the message from the measuring point to the central unit and evaluating and processing the message in the same (alarm message, display , etc.), characterized in that one or more similar line modules (LB) are provided for the connection of one or more measuring points (M), that for each line module (LB) a switching means (S) is provided, which is initiated by the Central (Z) can be closed and opened and the line to the next line module (LB) is switched through, each line module (LB) has a control device (ST) and a transceiver (PS), each line module (LB) by the central unit ( Z) can be controlled with the aid of an address transmitted via the line (L) and in the activated state of the receiver a command or the sending of a message is possible, when the danger alarm system is started up, the switching means (S) of all line modules (LB) is open, each line module (LB) is assigned an address by the central office (Z), this address as line module Address is stored in the control device (ST) and the relevant line module (LB) is then controlled via this address and the control center (Z) initiates the closing of the switching means (S) by means of a corresponding command and that the line module (LB) has a detector interface (MS) with several inputs and outputs (E 1 - 4 , D, S 5 - 8 ). 2. Hazard detection system according to claim 1, characterized in that the detector interface (MS) first connections (E 1 , E 2 , D), second connections (E 3 , E 4 ), third connections (S 5 -S 8 ) and a fourth Has connection (V), the first and second connections (E 1 , E 2 , D, E 3 , E 4 ) each as an input, the third connections (S 5 -S 8 ) both as an input and as an output and the fourth connection (V) is designed as a power supply connection and that the input signals are detected by the control device (ST) and passed on to the transmitting device (PS) or the commands arriving from the receiving device are evaluated by the control device (ST) and possibly to generate a Output signals are used on one or more of the third connections (S 5 -S 8 ). 3. Alarm system according to one of claims 1 or 2, characterized in that the first connections (E 1 , E 2 , D) each with a resistor (R 1 ) against voltage, the second connections (E 3 , E 4 ) with each a resistor (R 2 ) to ground and the third connections (S 5 -S 8 ) are each provided with a resistance to voltage and a transistor (TS), the collector of which has one of the third connections (S 5 -S 8 ) and whose emitter is connected to ground, the transistor (TS) being blocked as the input when the relevant connection (S 5 -S 8 ) is used. 4. Hazard detection system according to one of claims 1 or 2, characterized in that a measured value transmission is prepared by a voltage signal from the detector (M) at the connection (D) of the detector interface (MS), the measured value via the first, second and / or third Connections (E 1 -S 8 ) is transmitted. 5. Hazard detection system according to one of claims 1 or 2, characterized, that the address assignment in regular or irregular Intervals. 6. Hazard detection system according to one of claims 1 or 2, characterized, that the addresses to be allocated are scrambled. 7. Hazard detection system according to one of claims 1 to 6, characterized, that first the address and then possibly a command to the line module (LB) and after a pause possibly a message is transmitted, the addressing the line blocks (LB) cyclically at certain intervals he follows. 8. Hazard detection system according to one of claims 1 to 7, characterized, that for the transmission of address, command and message a rigid frame is given, which at the beginning and at the end marked by certain bit positions of the data words is. 9. Alarm system according to claim 8, characterized in that the frame is divided by certain data words into sections (A 1 -A 3 ) which serve to transmit the address (A 1 ), command (A 2 ) and message (A 3 ) . 10. Hazard detection system according to claim 1, characterized, that a memory (SP) is provided in the control center (Z), in which the addresses of the line modules (LB) together with the respective detector type and detector number is. 11. Hazard detection system according to claim 10, characterized, that the detector states are entered in the memory (SP) will. 12. Hazard detection system according to one of claims 1 to 11, characterized, that the query cycle is changed in the event of an alarm or revisions becomes.