EP3029644A1 - Alarm system with a hazard detection centre and multiple hazard detectors connected by means of a two-wire line for converting a received text message into a speech signal using a speech synthesizer - Google Patents

Abstract

The invention relates to a hazard alarm system (100) with a hazard warning center (2) and with several hazard detectors (1) and fire detectors (3), which are connected to one another via a detector line (4), in particular via a two-wire line. The danger control center has a transmitter (29) for outputting at least one alarm information (AL) and a text message (TXT) to the hazard alarms and a receiver (25) for receiving a respective fire detector status (DL), in particular a pre-alarm, main alarm or an OK message , from a fire detector connected to the alarm control panel. The hazard alarms are provided for acoustic signaling of a danger, wherein the hazard alarms a receiving unit (5) for receiving a transmitted in the event of danger by the danger control center via the detector alarm information (AL), a speech synthesizer (11) for converting a text message into a voice signal and at least an electro-acoustic transducer (6, 61) for outputting the speech signal. In this case, a text message transmitted by the alarm control panel via the detector line to a hazard detector has a signal bandwidth of only a few hundred hertz.

Description

Furthermore, the invention relates to a security alarm center for connecting a plurality of such danger detector via a detector line, in particular via a two-wire line.

Finally, it relates to a hazard alarm system with at least one such alarm control panel and with a plurality of such hazard alarms, which are connected via a signaling line signal and / or data technology with each other.

The considered hazard detectors are typically designed as point detectors. For example, it can be an audible alarm. Such an alarm will be referred to the English technical term after as a sounder. It can also have a flashing beacon for optical hazard signaling. In this case, the danger detector can be called a so-called sounder / beacon. He may also have a fire detection unit for detecting at least one fire characteristic. Such a unit may for example be integrated in the hazard detector or be added to a so-called sounder / beacon base designed for the modular recording of further devices. It may also include an intrusion detector unit for possible detection of a break-in. Furthermore, several such hazard detectors be connected in detector zones or detector lines in each case via a common detector line to a security control center. Several such detector groups or detector lines can be connected to such a danger control panel.

In particular, such a hazard detector has an electroacoustic converter, in particular a loudspeaker for voice output. He may additionally have a piezo sounder for the output of a so-called attention signal at the beginning and possibly at the end of a voice message. Such danger detectors, which are connected via a two-wire line to a security alarm center, may also have voice messages already stored in an electronic memory. Such voice messages may e.g. be stored as a so-called WAVE file. They may be calls or cues, such as "Please leave the building immediately" or "Please check the corridor 12 for smoke and fire". The voice messages can then be output on receipt of an alarm message or alarm information or a corresponding message code.

Also known is the use of separate networks for fire and / or burglary detection and voice announcements for evacuation in case of fire, especially in large buildings or building complexes.

On this basis, it is an object of the invention to provide an improved hazard detector. It is a further object of the invention to provide a corresponding security alarm center. Finally, it is an object of the invention to provide a security alarm system which comprises at least one such security alarm center and several such hazard alarm.

These objects are achieved by the subject-matter of the independent claims. Advantageous embodiments of present invention are described in the dependent claims.

According to the invention, the receiving unit is set up to receive a text message transmitted via the detector line. The hazard detector has a speech synthesizer for converting the received text message into a speech signal, wherein the speech signal can be output by the at least one electroacoustic transducer.

The essence of the invention lies in the realization that even over a conventional two-wire line, which can be up to several hundred meters long and which has too low a signal bandwidth for direct analog voice transmission, a reliable and intelligible speech output for emergencies, warning and evacuation purposes is possible if instead of the broadband analog voice signal only the actual text message is transmitted in the sense of an SMS. Their bandwidth requirement is smaller by orders of magnitude compared to an audio signal.

As a result, a reliable and understandable speech output by the respective danger detector is possible with an extremely low bandwidth. The actual implementation in the relatively broadband audio or speech signal is carried out by the speech synthesizer in the hazard detector itself. Such can be implemented as a semiconductor device, such as by the Speech Processor of Fa. General Instruments type SP0250. It can also be realized as a software program, eg by "Virtual Voice". Such "text to speech programs (TTS)" can be executed on a processor-based processing unit of the hazard alarm. Thus, for the above exemplary text "Please leave the building immediately", in the shortest case only 38 characters have to be transmitted. Their transmission requires, for example, with a transmission time of 1 second considerably less than 1 kHz bandwidth, especially only a few hundred hertz.

Another big advantage is the high flexibility. In principle, any text message transmitted via the detector line can be converted into speech. It goes without saying that such a text message for use in hazard alarm technology should be textually understandable, meaningful and purpose-oriented. There is no restriction on the voice messages otherwise only stored in the danger detector.

According to one embodiment, the receiving unit is configured to receive a text message encoded as a sequence of alphanumeric characters, in particular of ASCII or Unicode characters. The individual characters are preferably transmitted in turn as a sequence of bits or groups of bits. For example, for a character encoded as an ASCII character, only 7 bits are needed in the simplest case. In principle, any conceivable encoding rule for a sequence of common alphanumeric characters in a suitable bit sequence is possible. The bit strings can also be backed up by error-detecting or error-correcting overhead bits, such as parity bits, CRC bits or Hamming code bits. They may alternatively or additionally be transmitted encrypted, e.g. based on symmetric or asymmetric encryption techniques such as RSA or AES.

Alternatively or additionally, the receiving unit may be arranged to receive a text message which is a sequence of phonetic alphabet sounds, the respective sound then being encoded as an alphanumeric character, in particular as a sequence of ASCII or Unicode characters. The individual characters are then in turn transmitted as described above as a sequence of bits or groups of bits. In other words, the text is transmitted in phonetic transcription, and this is advantageous given comparatively equal bandwidth requirements.

The phonetic alphabet is preferably the so-called IPA (for International Phonetic Alphabet). Much of the For example, characters of the IPA can be encoded as ASCII characters, as in SAMPA (for Speech Assessment Methods Phonetic Alphabet). It is also possible to use X-SAMPA, which encodes all characters of the IPA in Unicode.

The particular advantage of this solution is the linguistic independence in the implementation of the phonetic transcription by the speech synthesizer designed for this purpose in the speech signal to be output. In other words, a speech output is in principle in any language, such as in German, in English or Dutch, possible.

According to a further embodiment, the receiving unit is set up to receive a detector address or detector group address associated with the text message. As a result, the speech output of the text message is targeted to a specific hazard detector possible. Alternatively, a simultaneous voice output of the text message targeted to a group of hazard detectors is possible. The group can also include all alarm detectors connected to a detector line. The detector address or zone address is again a sequence of characters, such as ADR12 for the detector address 12. For this purpose, the conversion of the received text message into an (electrical) voice signal is suppressed if the detector address or detector group address assigned to the text message is not correlated with a message in the hazard detector. electronically stored setting address matches.

According to another embodiment, the receiving unit is set up to receive a time information associated with the text message. Such time information may be, for example, a time and / or date to which the text message is to be output as speech. In this case, the hazard detector has a real-time clock. Alternatively or additionally, the danger detector can be time-synchronized via the detector line by the connected alarm center. The time information is again a consequence of characters, such as 235959 for 23 o'clock, 59 minutes and 59 seconds.

Instead of the time of day, the time information may also have a delay time for the voice output, e.g. 10 seconds. In this case, converting the received text message into the voice signal is delayed on the basis of this time information associated with the text message.

According to a further embodiment, the receiving unit is set up to receive an abbreviated dialing code associated with the text message. If such a received text message is cached in the danger detector, only the transmission of the speed dial code is required for later speech output. The speed dial code is again a sequence of characters, such as KODE123 for a text message with the number 123. The received text message can also already be converted by the speech synthesizer into an audio data stream and buffered, such as e.g. as a WAVE file. The latter, after receiving the associated speed-dialing code, can be converted directly into an analogue audio signal, e.g. with a D / A converter.

The text message and the associated time information, the detector address or detector group address and / or speed-dial code can also be regarded as an extended text message. Preferably, the detector address, the time information and / or the speed dial code are in turn encoded as a sequence of bits. In particular, they are not intended for conversion into language. Rather, they are accompanying information for what should be done with the respective text message. The assignment to the respective text message is given for example by their temporal succession to the text message. Alternatively, the transmission of such an extended text message may be characterized by start and end information, such as a special bit string. Within such a frame is then the chronological order of the respective text message, the detector address or detector group address, the time information and / or the speed dial code freely selectable.

In addition, it is noted that alternatively or additionally, the receiving unit can also be set up to receive the alarm information as a sequence of bits. It may also be arranged to receive at least one character analogously as described above, such as e.g. to receive a text message with the text "ALARM". Usually, the transmission of the alarm information is carried out by modulation of the voltage applied to the detector line DC voltage directly through the alarm panel. The modulated voltage is then detectable by the receiving unit of the danger detector.

In particular, the receiving unit for decoupling a via the detector line voltage modulated, current-modulated or a frequency-coded frequency-coded transmitted text message is set up. The same applies to a transmitted detector address, detector group address, time information and / or for a speed dial code.

A multi-frequency selection method may e.g. be the MFC or DTMF tone dialing (MFC for multi-frequency code, DTMF for dual-tone multi-frequency) known in the telephone number over a two-wire line. In this case, two different individual frequencies can be transmitted simultaneously for each "tone". On the basis of this extremely reliable method, the information content of 4 bits can be transmitted in a time interval of at least 70 ms all at once. For a text message "Leave the building immediately" would be a standard transmission according to the recommendations of the ITU-T (for International Telecommunication Union - Telecommunication) a transmission time of about 4.5 seconds = 32 drawing · 2 tones / characters · 70 ms / Sound required.

According to a further embodiment, the hazard detector may have a common loudspeaker for outputting an alternating loudspeaker Have acoustic warning signal upon receipt of a valid alarm information and to output the speech signal.

The object of the invention is further achieved by a security alarm center, which has a transmitter for outputting at least one alarm information, a text message and optionally one of the respective output text message associated detector address or detector group address and / or associated time information and / or an optionally assigned speed dial codes. It further comprises a receiver at least for receiving a hazard detector status of at least one signal or data technology connected to the hazard alarm center hazard detector. In principle, any desired text message for voice output can be made via such a danger control center by a specifically selected or by a plurality of selected hazard alarms. The text message may e.g. be entered via a keyboard attached to the alarm control panel. Alternatively or additionally, the text message can be read in via an external interface of the danger control center, such as e.g. via a LAN connection, via a Wi-Fi connection or via a GSM or UTMS connection, or generally via the Internet.

FIG 1

eine beispielhafte Gefahrenmeldeanlage mit einer Gefahrenmeldezentrale, mit zwei erfindungsgemässen Gefahrenmeldern und einem Brandmelder,

FIG 2

ein Prinzipschaltbild eines beispielhaften Gefahrenmelders nach einer ersten Ausführungsform,

FIG 3

ein erstes Beispiel für eine als Bitfolge kodierte und zur Umwandlung durch für einen Sprachsynthesizer des Gefahrenmelders bestimmte Textnachricht gemäss FIG 2,

FIG 4

ein Prinzipschaltbild eines beispielhaften Gefahrenmelders nach einer zweiten Ausführungsform,

FIG 5

ein zweites Beispiel für eine als Bitfolge kodierte und zur Umwandlung durch für einen Sprachsynthesizer des Gefahrenmelders bestimmte Textnachricht gemäss FIG 4,

FIG 6

ein Prinzipschaltbild einer beispielhaften Gefahrenmeldezentrale gemäss der Erfindung und

FIG 7

ein Beispiel für einen modular aufgebauten erfindungsgemässen Gefahrenmelder.

The invention and advantageous embodiments of the present invention will be explained using the example of the following figures. Showing:

FIG. 1

an exemplary alarm system with a security control center, with two inventive hazard detectors and a fire detector,

FIG. 2

FIG. 2 is a block diagram of an exemplary hazard alarm according to a first embodiment; FIG.

FIG. 3

a first example of a coded as a bit sequence and for conversion by a speech synthesizer the danger detector according to certain text message FIG. 2 .

FIG. 4

FIG. 2 is a block diagram of an exemplary hazard alarm according to a second embodiment; FIG.

FIG. 5

a second example of a coded as a bit sequence and for conversion by specific for a speech synthesizer of the danger message text message FIG. 4 .

FIG. 6

a schematic diagram of an exemplary alarm center according to the invention and

FIG. 7

an example of a modular design according to the invention hazard detector.

FIG. 1 shows an exemplary security system 100 with a security center 2, with two inventive hazard detectors 1 and with a conventional fire detector 3. All devices 1-3 are connected via a designed as a two-wire line detector line 4 signal and / or data technology with each other. The left hazard alarm 1 is an example of a sounder for acoustic hazard signaling by means of an electro-acoustic transducer 6, symbolized by a speaker. The right-hand hazard detector 1 is an example of a sounder / beacon for acoustic and optical hazard signaling. He also has a light source such as a flashing light on. With AL is transmitted from the hazard panel 2 to the hazard alarm 1 alarm information, with DL a transmitted from the fire detector 3 danger detector or fire detector status, such as a pre-alarm, a main alarm or an OK message.

According to the invention, a text message TXT transmitted via the detector line 4 is converted into an (electrical) voice signal by a speech synthesizer of the hazard detector 1 and output on an electroacoustic path.

FIG. 2 shows a schematic diagram of an exemplary hazard detector 1 according to a first embodiment. The hazard detector 1 has a receiving unit 5, such as a demodulator, for receiving a via the two-wire line 4, for example, voltage-modulated transmitted text message TXT. The receiving unit 5 is additionally set up to receive an alarm information AL. The text message TXT and alarm information AL received via the two-wire line 4 are output in digital form to an electronic control unit 10. The latter is preferably a microcontroller. The receiving unit 5 can also be integrated in the electronic control unit 10. In the case of an incoming alarm information AL, the control of an alarm transmitter, such as a piezo sounder 62 takes place.

According to the invention, the receiving unit 5 is set up to receive a text message TXT transmitted via the detector line 4. Furthermore, the danger detector 1 has a speech synthesizer 11 for converting the received text message TXT into a speech signal which can be output by the at least one electroacoustic transducer. In the present case, the speech synthesizer 11 is a software program executed by the microcontroller 10.

FIG. 3 shows a first example of a coded as a bit sequence and for conversion by for a speech synthesizer 11 of the danger detector 1 specific text message TXT according to FIG. 2 , The exemplary text message TXT consists of n characters CH1, CHn, of which only the first and last characters are shown. The characters CH1, Chn are coded as a sequence of 8 bits b0-b6, P, bits b0-b6 are used to encode the characters CH1, CHn in ASCII, and the parity bit P is used to detect errors of a bit error. With i, u, f for current, voltage and frequency, the various possibilities for the transmission of the characters CH1, Chn by voltage, current or frequency modulation are indicated.

FIG. 4 shows a schematic diagram of an exemplary hazard detector 1 according to a second embodiment. Compared to FIG. 2 the hazard detector 1 a flashing beacon 7 for optical hazard signaling and a transmitting unit 9 for ACK acknowledgment of a proper transmission of the alarm information AL and / or the text message TXT. Furthermore, the receiving unit 5 has already been set up to receive a detector address or detector group address ADR associated with the text message TXT, a time information item TI assigned to the text message TXT for a delayed voice output of the text message TXT and a speed dial code AC assigned to the text message TXT. Furthermore, the control unit 10 of the danger detector 1 has an electronic memory 12, such as for a received text message TXT, an address memory 13 for storing an individually definable setting address for addressing the hazard detector 1 and a real-time clock 14 as a time reference for the delayed speech output.

FIG. 5 shows a second example of a coded as a bit sequence and for conversion by specific for a speech synthesizer of the danger message text message FIG. 4 , The exemplary text message TXT again consists of n characters CH1, CHn. This text message TXT is still assigned a time information TI and a detector address ADR, both respectively coded as a sequence of 4 bits t0-t3, a0-a3. The text message TXT and the associated time information TI and address ADR can also be regarded as extended text message XTXT.

FIG. 6 shows a block diagram of an exemplary hazard panel 2 according to the invention. It is provided for connecting a plurality of danger detectors 1 according to the invention. In addition, the alarm control panel 2 can also be connected to connect more conventional fire detectors 3 or intrusion detectors. In the example of FIG. 6 For reasons of clarity, only the end of the detector line 4 can be seen. The danger control center 2 shown has in addition to an electronic Control unit 20, such as a processor, a transmitter 29 and receiver 25 for sending alarm information AL, text messages TXT and associated detector addresses ADR, time information TI and abbreviated dialing codes AC and to receive corresponding acknowledgments ACK and a respective danger detector status DL in case of connected fire detector. 3 On the basis of such a danger detector status DL, the danger control center 2 can determine the actual location of the fire by means of a suitable evaluation software which is executed on the control unit 20. In the reported case of fire, an alarm information AL is then output via the detector line 4 to the hazard detector 1. The alarm information AL is also typically forwarded to a control center connected to the security control center 2, such as, for example, to a control center of the fire brigade, or to a higher-level alarm control center. It can also, as indicated, an externally incoming alarm information AL 'to be forwarded to the hazard detector 1.

Furthermore, the security control center 2 has a memory 21 connected to the memory 21, in which a number of text messages TXT with correspondingly assigned detector addresses ADR, time information TI and speed dial codes AC can be stored. The memory 21 may also be integrated in the control unit 20 already. The reference numeral 24 denotes a real-time clock of the security control center 2. With TXT ', ADR', TI 'and AC' are externally designated by the inventive alarm panel 2 readable text messages, associated detector addresses or detector group addresses, time information and speed dial codes. These may come from external devices, such as a personal computer of a control center. It is also conceivable, for example, that the security personnel of a factory or a management complex directly enter targeted text messages, such as "Please leave the building immediately [13]" in a smartphone, in a mobile phone or in a personal computer at a gate. The number 13 in square brackets can eg by an editor as appropriate Detector address ADR are interpreted, such as the number of the building in question.

FIG. 7 shows an example of a modular inventive hazard detector 1. It has a detector base 15, in the modular an acoustic alarm detector module 60, inter alia, for the speech output of text messages TXT, a flashing light module 70 and a fire detector module 30 are added.

LIST OF REFERENCE NUMBERS

1

Hazard detector, acoustic alarm

2

Security control panel, panel

3

Fire detectors, smoke detectors

4

Detector cable, two-wire cable

5

receiver unit

6

electroacoustic transducer

7

optical detector, strobe light

9

transmission unit

10, 20

Control unit, processing unit, microcontroller

11

speech synthesizer

12

Storage, electronic storage

13

address decoder

14, 24

Timer, clock, timer

15

detector base

21

Memory for text messages

25

receiver

29

transmitter

30

fire detection module

60

acoustic alarm module

61

speaker

62

piezo Sounder

70

optical alarm module

100

Alarm system

a0-a3,

bits

b0-b6, P, t0-t3 AC, AC '

Kurzwahlkode

ACK

acknowledgment

ADR, ADR '

Detector address, detector group address

AL, AL '

alarm information

CH1, CHn

alphanumeric characters, ASCII characters, Unicode characters

DL

detector status

f

frequency

i

electricity

t

Time

TI, TI '

time information

TXT, TXT '

message

u

tension

XTXT

extended text message

Claims (12)

Security alarm system with a security control panel (2) and with several hazard detectors (1) and fire detectors (3), which are connected to one another via a detector line (4), in particular via a two-wire line, - wherein the danger control center (2) a transmitter (29) for outputting at least one alarm information (AL) and a text message (TXT) to the hazard detector (1) and a receiver (25) at least for receiving a respective fire detector status (DL), in particular one Pre-alarm, main alarm or an OK message from a fire alarm (3) connected to the alarm control panel (2), - wherein the danger detector (1) are provided for the acoustic signaling of a danger, wherein the danger detector (1) a receiving unit (5) for receiving a in case of danger from the alarm center (2) via the detector line (4) transmitted alarm information (AL), a Speech synthesizer (11) for converting a text message (TXT) into a speech signal and at least one electroacoustic transducer (6, 61) for outputting the speech signal, and - Wherein one of the alarm panel (2) via the detector line (4) to a hazard detector (1) transmitted text message (TXT) has a signal bandwidth of only a few hundred hertz. Alarm signaling system according to claim 1, wherein the detector line (4) is a two-wire line. Alarm system according to claim 2, wherein the two-wire line (4) is up to several hundred meters long. Danger alarm system according to one of the preceding claims, wherein the transmitter (29) of the danger control center (2) for outputting a respective text message (TXT) outputted detector address or detector group address (ADR) and / or one of the respective output text message (TXT) associated time information (TI ) and / or one if necessary the receiving unit (5) of the respective danger detector (1) for receiving a text message (TXT) associated with the detector address or detector group address (ADR) and / or one of the text message (TXT) assigned to the respective output text message (TXT) TXT) and / or an optionally the text message (TXT) associated speed dial code (AC) is set up. Security alarm system according to one of the preceding claims, wherein the text message (TXT) and optionally the detector address or detector group address (ADR) and / or the time information (TI) and / or the abbreviated dialing code (AC) as a result of bits (b0-bn) is encoded. Danger alarm system according to claim 4 or 5, wherein the respective receiving unit (5) of the hazard detector (1) is adapted to suppress the conversion of the received text message (TXT) into an electrical audio signal, if the text message (TXT) associated with the detector address or detector group address ( ADR) does not correspond to a setting address stored in the danger detector. Alarm signaling system according to claim 4 or 5, wherein the respective receiving unit (5) of the hazard detector (1) is adapted to delay the conversion of the received text message (TXT) into a voice signal on the basis of the text message (TXT) associated with time information (TI). Security alarm system according to one of the preceding claims, wherein the respective hazard alarms (1) have an electronic memory (12) for storing the respective received text message (TXT), if the respective text message (TXT) is associated with a speed dialing code (AC), and wherein the respective Hazard detector (1) Having means for reading and forwarding the respective stored text message (TXT) to the speech synthesizer (11), if the Speed-dial code (AC) without assignment to a text message (TXT) has been received by the receiving unit (5). Security alarm system according to one of claims 1 to 8, wherein the transmitter (29) of the danger warning center (2) for output and the respective receiving unit (5) of the danger detector (1) for receiving a sequence of alphanumeric characters (CH1-CHn), in particular ASCII - or Unicode character encoded text message (TXT), are set up. Security alarm system according to one of claims 1 to 8, wherein the transmitter (29) of the danger warning center (2) for output and the respective receiving unit (5) of the hazard detector (1) for receiving a coded as a sequence of sounds from a phonetic alphabet text message (TXT) set are, wherein the respective sound as an alphanumeric character (CH1-CHn), in particular as a consequence of ASCII or Unicode characters encoded. Security alarm system according to one of the preceding claims, wherein the hazard detector (1) has a flashing beacon for optical hazard signaling. Security alarm system according to one of the preceding claims, wherein the hazard detector (1) has a common loudspeaker (61) for outputting an alternating acoustic warning signal upon receipt of a valid alarm information (AL) and for outputting the speech signal.

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