EP3178076A1

EP3178076A1 - Detector base for releasably attaching a hazard detector with a radio device for transmitting position data of the mounting location of the detector base and/or for transmitting a reference to said position data

Info

Publication number: EP3178076A1
Application number: EP15732661.2A
Authority: EP
Inventors: Björn Avak; Christian Frey; Simon KÜNZLI; Oliver Zechlin
Original assignee: Siemens Schweiz AG
Current assignee: Siemens Schweiz AG
Priority date: 2014-08-05
Filing date: 2015-06-29
Publication date: 2017-06-14
Also published as: EP2983145A1; CN106574839A; WO2016020116A1; US20170228993A1

Abstract

The invention relates to a detector base (1) for fixing to a mounting surface (D), wherein the detector base has a connection (K) for connecting to a detector line (ML) of a hazard alarm system (100) and a first connection side (A1) for releasably attaching a hazard detector (3) embodied as a point detector. The first connection side is electrically and structurally co-ordinated with a second connection side (A2) of such a hazard detector, with the result that the latter is releasably attachable to the detector base and is connectable via the latter indirectly to the detector line. According to the invention, the detector base has a radio device (10) accommodated in particular fixedly in the detector base and serving for transmitting position data (POS) of the detector base mounting location and/or for transmitting a reference (REF) to a database having said position data (POS). The radio device is preferably based on a Bluetooth low energy standard.

Description

description

Detector base for releasably attaching a hazard detector with a radio device for transmitting position data of the mounting location of the detector base and / or sending a reference to this position data

The invention relates to a detector base for attachment to a mounting surface, typically on a ceiling. The detector base has an electrical connection for connecting the detector base to a detector line of a hazard alarm system. The detector line, which is also referred to as detector bus, is typically designed as a two-wire line. The detector base also comprises a first connection side for the preferably detachable attachment of a danger detector designed as a point detector. The first connection side is electrically and constructively matched to a second connection side ei ^¬ nes such danger detector, so that it is preferably releasably attachable to the detector base and indirectly connected via this to the detector line. Such detector base are well known.

In the US Patent US 7,973,669 B2 a radio module is beschrie ^¬ ben that exhibited by a printed circuit board, a radio unit to the outdoor position information as well as a power supply. The printed circuit board is dimensioned such that it can be inserted Zvi ^¬ rule a detector base and a male hazard detector. On the circuit board opposite contact surfaces are present, which are provided on the one hand for contacting with contacts of the detector base and on the other hand ^¬ for contacting the otherwise opposite contacts of the danger detector. By the opposing contacts of the circuit board, the Funkmo ^¬ dul after attachment of the hazard detector in the detector base is electrically connected between the two. Next to the

Looping through the signals and the power supply from the detector base to the recorded danger detector makes it possible to power the radio module. Based on the above-mentioned prior art, it is an object of the invention to provide a detector base with extended functionality.

The invention is solved with the features of the main claim. Advantageous embodiments are mentioned in the dependent claims.

According to the invention, the detector base to a radio device for transmitting position data of the mounting location of the detector base, and / or for sending a reference to a database, including ^¬ Since these position data. The radio device is in particular firmly received in the detector base.

Preferably, the radio device is electrically connected to a terminal of the detector base, which is provided for connecting the detector base on the detector line, or subsequently electrically connected. The radio is after connecting thus an integral part of the detector base itself and forms with this a unit.

The inventive idea lies in the fact that the transmitted position data and / or the reference thereto are assigned to the locally fixed detector base and consequently are also assigned to the locally fixed mounting location.

As a result, the detector detector according to the invention can advantageously be exchanged for danger detectors, without the transmitted position data of the installation site and / or the reference thereto changing.

Another big advantage is the simple retrofitting of an existing alarm system.

By contrast, the transmitted position data are bound to the respective hazard detector in known hazard detectors with radio equipment. When exchanging or changing the position of the danger detector, the transmitted position data will be correct no longer match the position data of the new mounting location. As a result, adversely faulty or turned ^¬ restricted positioning and navigation of a user in a building is possible, especially in a case of danger.

Also in the proposed solution according to the aforementioned US 7,973,669 B2, there is the possibility that a faulty position indication, such as the installation site, ^¬ ausge given, as to be inserted between a detector base and an increasing danger detector radio module PCB structurally not one Detector base or a Ge ^¬ drive detector is assigned. For example, if a series of obsolete hazard detector as part of a revision, such as gerei ^¬ nigt or calibrated as a permutation of the circuit boards during the reinsertion of the printed circuit boards in the hazard detector is easily possible. In addition, there is the danger that the outdated hazard alarms will no longer be attached to the same detector base but to another detector base. This adversely changes the transmitted position information. But it can easily fall out and a printed circuit board with the radio module during a change of a danger detector ^¬ go defective and will be replaced by another circuit board with another stored position ^¬ information. Also in this case adversely changes the emitted position information.

The position data can be eg absolute GPS coordinates. They can also be relative GPS coordinates that are relative to an absolute reference GPS coordinate as datum, such as the main entrance of the building or on ei ^¬ ne corner of the building. This absolute reference GPS coordinate is then to be taken into account by the mobile communication ^terminal . The position data preferably include all three spatial coordinates, so that each position can be imaged on each floor of a building.

The position data is thus a data mapping of the local "physical" building coordinates of the current one Mounting locations of the detector base. The latter can, for example, a BIM system (BIM for "education information modeling") are rejected. Such a system is used for Inventarisie ^¬ tion of all electrical and air-engineering components in a building. It also includes the functional relationships of the components to one another and their spatial relations among themselves.

The reference can be, for example, a so-called URI (Uniform Resource Identifier), which identifies an abstract or physical resource on the Internet. Such a resource may be, for example, a URL (for Uniform Resource Locator) or a web address. In particular, this reference refers ei ^¬ ne via the Internet or via an intranet data technology accessible database. The actual position data can then be retrieved in the database for each reference. The database is in the simplest case a table. This database can then be accessed through a mobile web-enabled Kommunikati ^¬ onsendgerät such as dung over a wireless Datenverbin- in the building and / or via an achievable in the building Mo ^¬ bilfunknetz. Alternatively, the database may also be stored in the mobile communication terminal.

Alternatively or additionally, a specific identification for the detector base identifier may be stored in the control unit, such as an ID, a bus address or serial number, via which then the actual position data can be referenced. Alternatively, a database with the actual position data can be referenced via the identifier specific to the detector base. The database can turn itself be stored in the mobile communication terminal or are referenced via the Internet or an intranet through an Internet-enabled mobile communication terminal ^¬. According to a further embodiment, the detector base according to the invention has an optical and / or acoustic alarm unit which can be triggered via the detector line in terms of signaling or data technology. The visual alarm unit can For example, be an alarm flashlight on LED or xenon-based. Such visual alarm units are also referred to as "beacon base." The acoustic alarm unit can be, for example, a so-called "sounder." The latter can be designed as an alternative or in addition to the voice output. Combinations of visual and audible alarm units are also referred to as "Sounder Beacon Base".

According to a preferred embodiment, the detector base is designed for the electrical power supply of the radio device via the detector line. The radio device is thus also connected to the detector line after connecting the detector base to the detector line to the electrical power supply of the radio device.

Alternatively or additionally, the detector base according to the invention may have an energy store for buffering the electrical power supply, such as a capacitor, a battery as a primary cell and / or an accumulator as a secondary cell. This is an uninterrupted clamping ^¬ voltage supply and operation of the radio even when electrical failure of the detector line still possible.

According to a particularly advantageous embodiment, the radio device is a Bluetooth radio device. It is based in particular on the Bluetooth Low Energy Standard. An al ^¬ tively common name for the Bluetooth low energy standard is the Bluetooth standard 4.0. The special pre ^¬ partly lies in the comparatively very low benötig ^¬ th average electrical power of less than 50 mW, in particular of less than 10 mW, for the operation of the radio equipment. Preferably, the maximum radio transmission power is 2.5 mW. Especially the danger detectors connected to a detector line of a hazard ^alarm system are based on a very low power consumption of typically less than 100 mW designed, especially since up to 100 danger detectors and more at the same time ^¬ can be connected to a detector line.

The radio of the inventive detector base on the basis of the Bluetooth low energy standard allows Since ^¬ tenkommunikation in a beam of the radio equipment of up to 10 m. A high degree of spatial Liehe cover for position determination and navigation in a building is then advantageously possible based on the plurality of ^¬ brought in a building and spatially distributed hazard detectors and here the detector base.

According to one embodiment, the detector base according to the invention can be set up to detect a signaling of a hazard alarm, such as a fire alarm, on the detector line and then to control the radio device with higher average transmission power, such as with a maximum transmission power of 10 mW, 25 mW, 50 mW or 100 mW. This is for emergency responders, such as a more reliable positioning and navigation in the building possible for the fire service, under encryption application correspondingly suitable mobile Kommunikationsendge ^¬ councils.

According to a further embodiment of the inventive detector base that has a circuit carrier having a large surface mass position as radio engineering part of the radio ^¬ device. The radio device has a radio electronics, which is preferably arranged on the circuit carrier, and an annular antenna configured to be spaced apart from the mass position. The antenna is further removed from the mounting surface after proper An ^¬ bring the detector base on the mounting surface as the grounding of the circuit ^¬ carrier. On the one hand, the antenna which is at a distance from the grounding position makes possible especially effective and radio-directed radiation directed to all sides. This is a particularly good wireless detection by a mobile Kommunikationsend ^¬ device for determining the position and navigation of a user advantageously possible. The annular antenna is preferably a PIF antenna.

According to a further embodiment of a detector base comprises after receiving the intended purpose provided hazards ^¬ detector has a larger outer diameter than the recorded hazard detector. The radio device has at least one in comparison to the recorded danger detector radially further out, arranged in the detector base antenna. The further outward antenna or antennas improved radio emission away from the recorded danger detector is possible.

Preferably, the antenna is designed annular. As a result, all-round radiation is possible.

It is particularly advantageous if the detector base has a circuit carrier with a large-area ground position as the radio-technical part of the radio device. It then has the radio on a preferably arranged on the Schaltungsträ ^¬ ger radio electronics, wherein the annular An ^¬ antenna is arranged spaced from the grounding. It is the antenna after proper attachment of the detector base on the mounting surface is further away from the mounting surface than the grounding of the circuit substrate. Due to the spaced arrangement of the ground layer a Rundu ^¬ mabstrahlung with high antenna gain is possible. In particular, the annular antenna is a PIF antenna. According to a preferred embodiment, the detector base on a signal and / or data technically connected to the radio control unit. In the control unit, preferably in a microcontroller, a specific identifier for the detector base and / or a web address are the Positionsda ^¬ th, th, a reference to a database using this Positionsda- stored. They are each assigned to the current or intended installation location in the building. The STEU ^¬ ereinheit is adapted to the output via radio to forward the radio. The storage of the position data, the reference, the identifier specific to the detector base and / or the web address can alternatively also take place in an electronic memory of the detector base, to which the control unit has data technology access.

According to one embodiment, the detector base on a signal and / or data technically connected to the radio control unit, which is adapted to received via the radio position data, a received reference to a database with these position data and / or a received web address on their validity to check and then save this in the valid case in the control unit. As a result, a data-related assignment of the current intended mounting location of the detector base is advantageously possible in a simple way. The assignment can eg with a corresponding communication terminal SUC ^¬ gen, such as done with a smart phone, a tablet computer or a notebook.

The invention and advantageous embodiments of the present invention can be seen by the example of the following figures. Show

1 shows an example of an inventive detector base for releasably receiving a dedicated smoke detector or alarm as a hazard detector and

2 shows another example of an inventive

Detector base with integrated visual and audible alarm unit.

FIG. 1 shows an example of a detector base 1 according to the invention for detachably receiving a designated one

Smoke detector 31 or alarm device 32 as danger detector 3. The detector base 1 shown is attached to a ceiling as a mounting surface ^¬ D. With BS that the mounting surface D is supplied ^¬ turned opposite attachment side designated by the reference numeral 11, a housing of the detector base 1. The detector base 1 has an electrical connection K, such as a clamp, for connecting the detector base 1 at a detector line ML on. The latter is connected to a central GMZ of a security alarm system.

The detector base 1 shown has a first connection side AI for releasably attaching a danger detector 3 designed as a point detector. In the example of FIG 1 may optionally ^¬ as a smoke detector 31 or an alarm device 32 are placed over its respective second terminal side A2 of the detector base to 1 ^¬. The alarm device 32 shown has, for example ^¬ way of both a visual alarm unit 91 and ei ^¬ ne acoustic alarm unit 92nd At the first connection side ^¬ AI is electrically and structurally adapted to the second terminal A2 side of the male Gefahrenmel ^¬ DERS 3 that this to the detector line ML is connected to the detector base 1 releasably attachable and via this indirectly. By the reference numeral is a receptacle 5 of the detector base 1 and designated by the reference numeral 6 is a corresponding counterpart. After attaching the hazard detector 3 contact the opposing rows X, Y electrical contacts X1-X3, XEA; Y1-Y3, YEA together.

According to the invention, the detector base 1 to a Funkeinrich ^¬ processing 10 for emitting position data POS of the detector base mounting location and / or a reference REF to a data bank ^¬ using this position data POS. The position data POS are each mounting location of the detector base 1 supplied ^¬ arranged. Reference numeral 7 denotes a control unit of the detector base 1. It is signal and / or data technically connected to the radio device 10. The latter is connected to a PIF antenna 8. The PIF antenna 8 is connected to a grounding position (not shown further) of the shell. processing carrier 4 spaced as radio technical part of the radio device 10.

2 shows another example of a detector base 1 according to the invention with an integrated optical and acoustic alarm unit 91, 92.

The FIG 2 differs from the example of FIG 1, characterized in that the detector base 1 in addition an optical alarm unit 91 and an acoustic alarm unit 92 in Sin ne a Sounder Beacon Base is integrated.

Reference sign list

1 detector base

3 danger detectors

4 circuit carrier, circuit board

5 recording

6 counterpart to the recording

7 control unit, microcontroller

8 antenna, PIF antenna

9 alarm unit

10 radio device, Bluetooth transmitter

11, 12, 21 housing

91 optical alarm unit

92 acoustic alarm unit, sounder

AI first connection side

A2 second connection side

BS mounting side

D mounting surface, ceiling

GMZ control center, danger control center, panel

K electrical connection, terminal

ML detector line, detector bus, two-wire cable

POS position data, GPS coordinates

REF reference

X series of first electrical contacts

Y series of second electrical contacts

X1-X3, electrical contacts

Y1-Y3,

XEA, YEA

Claims

claims

1. Detector base for attachment to a mounting surface (D), with an electrical connection (K) for connecting the detector base (1) to a detector line (ML) of a danger ^¬ signaling system (100) and with a first connection side (AI) for releasable attachment a trained as a point detector hazard detector (3), wherein the first connection side (AI) is electrically and constructively matched to a second connection side (A2) of such a danger detector (3), so that this releasably attachable to the detector base and indirectly via this to the detector line (ML ) is connectable, characterized in that the detector base a insbeson ^¬ particular firmly received in the detector base radio device (10) for emitting position data (POS) of the mounting location of the detector base and / or to emit a reference (REF) on a database using this position data ,

2. detector base according to claim 1, wherein the detector base via the detector line (ML) signaling or data triggering ^¬ bare optical and / or acoustic alarm unit (9).

3. detector base according to claim 1 or 2, wherein the detector base disgusting electrical power to the radio device

(10) is formed over the detector line (ML).

4. detector base according to claim 3, wherein the detector base has an energy storage for buffering the electrical power supply of the radio device (10).

5. detector base according to one of the preceding claims, wherein the radio device (10) is a Bluetooth radio device, in particular based on a Bluetooth Low Energy standard.

6. detector base according to one of the preceding claims, wherein the detector base is adapted to signaling a hazard alarm, in particular a fire alarm on the Detect detector line (ML) and then to control the radio device (10) with higher average transmission power.

7. detector base according to claim 6, wherein the radio device (10) with a maximum transmission power of 10 mW, 25 mW,

50 mW or 100 mW is controllable.

8. detector base according to one of claims 1 to 7, wherein the detector base has a circuit carrier (4) with a großflä- cal mass position as radio technical part of the radio device (10), wherein the radio device (10) a preference ^¬ on the circuit carrier (4 ) and a ring-shaped antenna (8) spaced apart from the grounding position, and wherein the antenna (8) is further from the mounting surface (D) than the mounting surface (D) after the detector base has been mounted to the mounting surface (D) Grounding of the circuit carrier (4).

9. detector base according to one of claims 1 to 7, wherein the detector base to receive a conforming manner pre see ^¬ NEN hazard detector (3) has a larger outer diameter than the recorded hazard detectors (3) and said radio means (10) at least one compared to the recorded hazard detector (3) radially further outward, arranged in the detector base antenna (8).

10. detector base according to claim 9, wherein the antenna (8) is designed ring ^¬ shaped.

11. detector base according to claim 10, wherein the detector base ei ^¬ nen circuit carrier (4) having a large-scale grounding as radio technical part of the radio device (10), wherein the radio device (10) preferably on the circuit carrier (4) arranged radio electronics, wherein the annular antenna (8) is arranged at a distance from the grounding position, and the antenna (8), after the detector base has been attached to the mounting surface (D) as intended, further away from the mounting surface (D) than the ground ^¬ position of the circuit substrate (4).

12. detector base according to claim 8 or 11, wherein the ring-shaped antenna (8) is a PIF antenna.

13. detector base according to one of the preceding claims, wherein the detector base has a signal and / or data technology with the radio device (10) connected control unit (7), wherein in the control unit (7) the position data (POS), a reference (REF) stored on a database with these position data (POS), an identifier specific to the reporting socket and / or a web address, and wherein the control unit (7) is adapted to forward these to the radio device (10) for output via radio.

14. Detector base according to one of the preceding claims, wherein the detector base has a signal and / or data technology with the radio device (10) connected control unit (7) which is adapted to the radio device (10) received position data (POS), a reference received (REF) to a database with these position data (POS) and / or a received web address to check their validity and store them in the valid case in the control unit (7) or in a memory associated with it.