DE202016008351U1 - Intruder alarm notification device - Google Patents

Abstract

Electroless, fiber optic burglar alarm device for quick and clear location of unauthorized access in telecommunications networks, with alarm and video surveillance for unambiguous identification of people in up to 80 km away security zones, characterized in that the access option, eg. B. in the fold of door or lid, etc., of security rooms, cable distribution or cable ducts (20), etc. mind. A fiber optic burglar alarm sensor (1) installed and the existing fiber optic network of the building and the fiber optic local and telecommunications network (11) is connected to a glass fiber monitoring unit RTU / RFTS (10) that in the fiber optic burglar alarm sensor (1) an optical sensor (3) of the glass fiber connection (4a) is inserted and for the detection of stomata> 5 mm, <10 mm the sensor (3) is bent by the signal transmitter (contact switch) (1a, 1b) over a mandrel (1c) ∅ ≥ 8 mm, whereby the deflection is limited by a leaf spring (2) in order to detect the increase in attenuation in a detection range> 2 To measure 5 mm by means of a glass fiber monitoring system (10) arranged at the beginning or end of the cable, that the fiber optic burglar alarm sensor (1) a lower and upper part (5a / b), glass fiber guide elements (6) one inside 4b), an inner signal transmitter (1a) with a mandrel (1c) ∅ 8 mm and a metal leaf spring (2) connected to a local and telecommunications network cable (11) with one at the beginning or end-mounted fiber-optic monitoring unit RTU / RFTS (10) or a transmitter, receiver with a fiber-optic monitoring unit RTU / RFTS (10) is connected and that for the individual determination of positions that are spatially very close in the same measuring channel (≤ 50 m) between the two sensors a deadband fiber (15) is spliced.

Description

The invention relates to an electroless burglar alarm device according to the preamble of claim 1.

The use of currentless measuring devices for locating unauthorized access to cable ducts and / or unoccupied outdoor facilities by generating a change in attenuation on a glass fiber by means of stroke compression springs is known from the following document:
In the patent application DE 103 078 33.9 (22.2.03) "Fiber optic measuring device for detecting water levels, temperatures, hazardous substances or water mixtures in collecting containers, 8th to 18 "And the patent application DE 103 261 24.9 (Utility Model Application 203 089 89.8) is a maintenance-free, temperature-independent, flexible ball, pressure, signal transmitter known. The ball, pressure, signal transmitter is configured from one or more filled with balls protective tubes, which are completed on site at both ends with a stroke compression spring coupling system and provided at the ends with father-mother coupling closures.

From the PCT / EP 99/05998 is a sensor for detecting water ingress in joints of fiber optic telecommunications systems is known, which consists of a sensor part, which is mounted in sleeves. This water sensor is characterized by the fact that, when water enters the glass fiber connection sleeve, a viscose press-sponge deforms by swirling the single-mode fiber of the fiber-optic cable inserted into the sensor, thus signaling an increase in attenuation at the bending-sensitive measuring wavelength of 1625 nm at the remote measuring / monitoring end. It is advantageous that a standard single-mode fiber is used as a sensor, which allows the measurement of attenuation change over long distances of up to 80 km in length, can be installed easily, economically and quickly and allows the use of existing networks. The location-accurate determination of water inlets is disclosed in the cited document and has been practiced since 1999 by Deutsche Telekom AG.

Next is from the DE 100 07 908 A1 a moisture sensor for detecting moisture loads of optical fibers known. As deviation from PCT / EP 99/05998 the deflection (bending) of the glass fiber takes place through a hygroscopic measuring tape, which returns to its original attenuation value after drying and renders the measuring device reusable. A disadvantage of this humidity sensor is that under certain circumstances (eg in humid weather) the sensor is already activated within the required assembly time of less than 5 minutes and the reference value to the activated value indicates insufficient moisture detection. Another disadvantage is that the humidity sensor under the prevailing environmental conditions in practice, eg. B. storage in acidic water / sludge mixtures pH3, is not reversible and already activated sensors react after artificial aging only partially and only from a relative humidity of 100%.

By the Font IEC EN 60793-1-22 Procedure B For example, it is known to measure the increase in attenuation and to detect leaks over a distance of over 80 km at the measurement wavelength 1625 nm on single-mode B.1.1 fibers.

From the EP 11 10 070 B1 , Page 2, a so-called OTDR backscatter device is known, sent with the light pulses in an optical waveguide of a fiber optic path and the level of the backscattered light and thus the attenuation of the optical waveguide is measured. By measuring the time, which requires an optical pulse for the outward and return path to a fault location of the optical waveguide to be located, the distance between the measuring location and the fault location can also be determined. The backscatter meter works with a wavelength of 1550 nm or 1625 nm.

Furthermore, there are innumerable patents for fiber optic alarm sensors, such as light barrier systems, magnet systems, fiber optic transmitter and receiver systems, etc., which are not connected via existing multimode or single-mode fiber telecommunications network connections to an RTU or RTFS fiber optic monitoring system. These alarm sensors are very prone to failure and unreliable under operating conditions and in particular under the influence of temperature changes, air humidity or frequent switching cycles.

The object of the invention is to provide an electroless burglar alarm device referred to in the preamble of claim 1, which is a further development of the patent application DE 103 07 883.9 . DE 103 261 24.9 and that published by Fiber Optics CT Font FO05 / 101 ZASE access alarm system 07/2003 with a measuring set-up, a sensor structure and materials for universal use in building areas connected to the fiber-optic telecommunications local or long-distance network, and for security zones a fast, reliable and uniquely identifiable location of unauthorized entry with alarm message and possibly Video camera transmission enabled.

As a burglary alarm sensor in the fold of a door, a lid, etc., a fiber optic sensor with dimensions of 9 × 35 × 110 mm, consisting of a signal transmitter with 8 mm diameter and 10 mm stroke in the activated state, as well as a fiber optic connection cable mounted, which may be formed to alarm, if necessary, in addition to a photographic access detection device. The sensor sensor used is a multimode or single-mode glass fiber that performs the monitoring and alarm function.

The measuring signal transmitter according to the invention has to detect the opening of doors or lids on a contact switch, which is triggered when opening by expansion of the located under compressive stress strip spring. This, in the case of opening, instantly and reliably delivers a uniquely identifiable signal that is high enough, by means of a fully automatic attenuation measuring device, by an attenuation increase in the 850, 1300, 1310, 1550, 1625 or 1650 nm range generated by the bending of the fiber portion 'RTU' or an RTFS optical fiber monitoring system (monitoring system) over distances up to 80 km.

In the field of fiber optic telecommunications, energy, water, gas supply or security systems, the burglar alarm sensor can be retrofitted into existing systems. All it takes is to lay the duplex multimode or single-mode fiber cable of the prefabricated intrusion alarm sensor and the video connection cable to the fiber optic connection box or cable distribution cabinets to the patch panel and between the monitoring fibers of the fiber optic cable (main cable) of the local and long-distance network to splice.

For monitoring sites with multiple access options and more than one door and / or manhole cover, a burglar alarm sensor and / or a video camera can be attached to each access point and spliced in series with the main cable. In spatially separate access options at a distance of 5 to 50 m, a reliable and clearly identifiable detection of unauthorized entry without difficulty is possible with a 100 m long Totzonenfaser spliced between each access point.

According to a further embodiment of the invention, the access via a video camera transmission can be documented. This assumes that, in addition to the burglar alarm sensor fiber, there is a second fiber or, parallel to the burglar alarm sensor cable, a fiber optic video signal transmission cable between the video camera and attenuator 'RTU' or the RTFS fiber monitoring system. In the case of video signal transmission in the frequency range of 850 nm, 1300 nm and 1550 nm, appropriate transmitters and receivers must be installed using fiber-optic technology, so that image transmission at distances of up to 50 km with high quality is possible.

The invention will be explained in more detail with reference to exemplary embodiments. Show it:

1 a perspective view of the upper and lower part of an open fiber optic burglar alarm sensor with an inserted signal generator, consisting of a multi-mode or single-mode fiber with a signal transducer, consisting of a compression spring and a contactor, in the undisturbed state,

2 the perspective view of the fiber optic burglar alarm sensor of 1 in the activated state,

3 a perspective view of a closed burglar alarm sensor of 1 in the storage, transport and assembly state with a locking pin,

4 a perspective view of a closed burglar alarm sensor of 2 in the activated state,

5 a perspective view of the connection of an optical fiber monitoring system RFTS (RTU) for monitoring a security room with two access options, two in-line burglar alarm sensors, including an intruder alarm sensor in the activated state, with video cameras, transmitters, receivers and video signal transmission cable,

6 a perspective view similar 5 a connection of an optical fiber surveillance system RFTS (RTU) for the monitoring of two spatially separated but very close security rooms by means of an additional dead zone glass fiber,

7a a perspective view of a stroke-pressure spring signal transmitter from the patent application DE 103 261 24.9 and the publication FO05 / 101 ZASE access alarm system by Fiber Optics CT,

7b a perspective view of 7a to detect all events in the same place and

8a / b perspective views of contact and disconnect applications from the patent application DE 103 07 833.9 and the publication FO05 / 101 ZASE access alarm system from Fiber Optics CT of September 2003.

In the 1 and 2 is an open prefabricated, fiber optic burglar alarm sensor 1 for inclusion in a signal transmitter 1a . 1b , an internal uncut multimode or single-mode fiber 4b shown as sensor sensor. The burglar alarm sensor 1 consists of a thermoplastic lower part 5a and a thermoplastic shell 5b with an external fiber optic connection cable 4a , a contact switch 1a . 1b . 1c passing through a metal leaf spring 2 at a gap opening 1a (Stroke) of ≤ 0 mm the sensor sensor 3 no matter what fiber type (a multimode fiber 3 or single mode fiber 3 ), in the activated state over a mandrel diameter 1b of 8 mm bends, taking the bend of the optical fiber 4b and the generated attenuation change in the selected monitoring range 850 nm, 1300 nm, 1310 nm and 1550 nm through the stroke of the signal generator 1b and the leaf spring 2 are limited.

In 3 is a prefabricated fiber optic burglar alarm sensor 1 in the closed state 5a / b, with multimode or single mode fiber 4a . 4b , Contact switch 1a set to a stroke of 0 mm, with locking pin 7a and drilling 9 for mounting the burglar alarm sensor 1 on an adjustment plate and / or on the shaft edge or door rebate with screws.

In 4 is the in 3 illustrated burglar alarm sensor 1 in activated state 1b Stroke 10 mm without locking pin 7b shown.

In 5 is a similar view of 1 to 4 with an RFTS / RTU fiber monitoring system 10 with fiber optic burglar alarm sensors 1 for uniquely locating the location at which the unauthorized access takes place and the visual record of the person via a video signal transmission system, which consists of a video camera 17 and from the video camera 17 coming electrical signal, the electrical signals through a corresponding transmitter 18 and receiver 19 be converted into light signals. After conversion to light signals, these are delivered with high image quality via the fiber optic cable 4a . 4b and the trunk / local area cabling 11 transmit to about 80 km away RFTS / RTU fiber optic monitoring system. In contrast to transmission via coaxial cable or two-wire, radio, etc., the electroless glass fiber transmission is particularly safe against all types of interference (electric fields, lightning, power failure, temperature change, humidity, etc.).

In 6 is an application view of 5 of the fiber optic burglar alarm system 1 in spatially separated, but very close security zones / rooms 10 shown, where for clear allocation of space 20.1 / 20.2 and identifying individuals with an inter-spliced deadband fiber 15 is used.

LIST OF REFERENCE NUMBERS

1

Faseroptischer Einbruch-Alarmsensor

1a

Signalmessgeber, Kontaktschalter Hubweg 0 mm

1c

Dorn-∅ 8 mm

2

Blattfeder

3

Sensormessfühler Multimoden- oder Einmodenfaser

4a

einfaseriges Glasfaser-Anschluss-/Universalkabel, für Innen- und Außenanwendung geeignet

4b

ungeschnittene Glasfaser/Vollader

5a

Unterteil des Einbruch Alarmsensors

5b

Oberteil des Einbruch-Alarmsensors

6

Glasfaser-Führungselemente

7a

Kontaktschalter mit geschlossenem Arretierungsbolzen zur sicheren Lagerung bei Transport und Montage

8

Einbruch-Alarmsensor-Verschraubung

9

Einbruch-Alarmsensor-Bauteilbefestigung

Fig. 2

1

faseroptischer Einbruch-Alarmsensor

1b

Signalmessgeber, Kontaktschalter Hubweg 10 mm

1c

Dorn-∅ 8 mm

2

Blattfeder

3

Sensormessfühler Multimoden- oder Einmodenfaser

4a

einfaseriges Glasfaser-Anschluss-/Universalkabel, für Innen- und Außenanwendung geeignet

4b

ungeschnittene Glasfaser/Vollader

5a

Unterteil des Einbruch-Alarmsensors

6

Glasfaser-Führungselemente

7b

Kontaktschalter ohne Arretierungsbolzen

8

Einbruch-Alarmsensor-Verschraubung

9

Einbruch-Alarmsensor-Bauteilbefestigung

Fig. 3

1

faseroptischer Einbruch-Alarmsensor

1a

Signalmessgeber, Kontaktschalter Hubweg 0 mm

4a

einfaseriges Glasfaser-Anschluss-/Universalkabel, für Innen- und Außenanwendung geeignet

5a

Unterteil des Einbruch-Alarmsensors

5b

Oberteil des Einbruch-Alarmsensors

7a

Kontaktschalter mit Arretierungsbolzen zur sicheren Lagerung, zum Transport und zur Montage

9

Einbruch-Alarmsensor-Bauteilbefestigung

Fig. 4

1

faseroptischer Einbruch-Alarmsensor

1a

Signalmessgeber, Kontaktschalter Hubweg 10 mm

4a

einfaseriges Glasfaser-Anschluss-/Universalkabel, für Innen- und Außenanwendung geeignet

7b

Kontaktschalter ohne Arretierungsbolzen

9

Einbruch-Alarmsensor-Bauteilbefestigung

Fig. 5 und Fig. 6

1

faseroptischer Einbruch-Alarmsensor

1a

Signalmessgeber, Kontaktschalter Hubweg 0 mm

1b

Signalmessgeber, Kontaktschalter Hubweg 10 mm

4a

einfaseriges Glasfaser-Anschluss-/Universalkabel, für Innen- und Außenanwendung geeignet

7b

Kontaktschalter ohne Arretierungsbolzen

10

Glasfaserüberwachungssystem RTU oder RFTS

11

Fernnetz-/Ortsnetzkabelverbindung

12

Verbindungsmuffe, Patchfeld

13

Spleißkassette

14

Fusionsspleiß

15

Totzonenfaser

20.1/20.2

Sicherheitsraum, Schachtanlage, Kabelverteiler

Fig. 1

1

Fiber optic burglar alarm sensor

1a

Signal transmitter, contact switch stroke 0 mm

1c

Mandrel-∅ 8 mm

2

leaf spring

3

Sensor sensor Multimode or single mode fiber

4a

single-fiber fiber optic connection / universal cable, suitable for indoor and outdoor use

4b

uncut fiber / solid core

5a

Lower part of the burglar alarm sensor

5b

Top part of the burglar alarm sensor

6

Fiber guide elements

7a

Contact switch with closed locking pin for safe storage during transport and installation

8th

Burglar alarm sensor fitting

9

Burglar alarm sensor component mounting

Fig. 2

1

fiber optic burglar alarm sensor

1b

Signal transmitter, contact switch, stroke 10 mm

1c

Mandrel-∅ 8 mm

2

leaf spring

3

Sensor sensor Multimode or single mode fiber

4a

single-fiber fiber optic connection / universal cable, suitable for indoor and outdoor use

4b

uncut fiber / solid core

5a

Lower part of the burglary alarm sensor

6

Fiber guide elements

7b

Contact switch without locking pin

8th

Burglar alarm sensor fitting

9

Burglar alarm sensor component mounting

Fig. 3

1

fiber optic burglar alarm sensor

1a

Signal transmitter, contact switch stroke 0 mm

4a

single-fiber fiber optic connection / universal cable, suitable for indoor and outdoor use

5a

Lower part of the burglary alarm sensor

5b

Top part of the burglar alarm sensor

7a

Contact switch with locking pin for safe storage, transport and assembly

9

Burglar alarm sensor component mounting

Fig. 4

1

fiber optic burglar alarm sensor

1a

Signal transmitter, contact switch, stroke 10 mm

4a

single-fiber fiber optic connection / universal cable, suitable for indoor and outdoor use

7b

Contact switch without locking pin

9

Intruder alarm sensor component mounting

Fig. 5 and Fig. 6

1

fiber optic burglar alarm sensor

1a

Signal transmitter, contact switch stroke 0 mm

1b

Signal transmitter, contact switch, stroke 10 mm

4a

single-fiber fiber optic connection / universal cable, suitable for indoor and outdoor use

7b

Contact switch without locking pin

10

Fiber Optic Monitoring System RTU or RFTS

11

Fernnetz- / local area network cable connection

12

Coupling sleeve, patch panel

13

splice tray

14

Fusion Splice

15

Totzonenfaser

20.1 / 20.2

Security room, pit, cable distributor

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 10307833 [0002, 0023]
• DE 10326124 [0002, 0008, 0021]
• EP 99/05998 [0003, 0004]
• DE 10007908 A1 [0004]
• EP 1110070 B1 [0006]
• DE 10307883 [0008]

Cited non-patent literature

• Document IEC EN 60793-1-22 Method B [0005]
• Font FO05 / 101 ZASE access alarm system 07/2003 [0008]

Claims (5)

Electroless, fiber optic burglar alarm device for fast and clear location of unauthorized access in telecommunications networks, with alarm and video surveillance for unambiguous identification of people in up to 80 km away security zones, characterized in that the access option, eg. As in the rebate of door or cover, etc., of security rooms, cable distribution or cable ducts ( 20 ) etc. at least one fiber optic burglar alarm sensor ( 1 ) and via the existing fiber optic network of the building and the fiber optic local and 11 ) with a fiber-optic monitoring unit RTU / RFTS ( 10 ) is connected to the fiber optic burglar alarm sensor ( 1 ) an optical probe ( 3 ) of the glass fiber connection ( 4a ) and to detect stomata> 5 mm, <10 mm of the probe ( 3 ) through the signal transmitter (contact switch) ( 1a . 1b ) over a thorn ( 1c ) Is deflected ∅ ≥ 8 mm, wherein the deflection by a leaf spring ( 2 ) in order to limit the attenuation increase occurring in a detection range> 2.5 mm by means of a glass fiber monitoring system arranged at the beginning or end of the cable ( 10 ) to measure that the fiber optic burglar alarm sensor ( 1 ) a lower and upper part ( 5a / b), glass fiber guiding elements ( 6 ) an inner uncut multimode or single mode fiber, solid core ( 4b ), an internal signal transmitter ( 1a ) with a thorn ( 1c ) ∅ 8 mm and a metal leaf spring ( 2 ) connected to a local and 11 ) with an RTU / RFTS (at the beginning or end) optical fiber monitoring unit ( 10 ) or a transmitter, receiver with a fiber-optic monitoring unit RTU / RFTS ( 10 ) and that for the individual determination of positions, which are spatially very close in the same measuring channel (≤ 50 m), a deadband fiber ( 15 ) is spliced. A fiber optic burglar alarm sensor according to claim 1, characterized in that the single-fiber glass fiber termination universal cable ( 4a ) in parallel, separable with a second cable for video signal transmission ( 16 ) is arranged. Fiber-optic burglar alarm sensor according to claim 1, characterized in that in the measuring signal transmitter ( 1a . 1b and 1c ) a metal leaf spring ( 2 ), Spiral spring ( 2 ) or a glass fiber reinforced thermoplastic spring is inserted. Fiber-optic burglar alarm sensor according to claims 1 and 2, characterized in that the burglar alarm sensor ( 1 ) is subsequently arranged individually or in series in existing multimode or single-mode optical fiber network connections. Fiber optic burglar alarm sensor according to claim 1, 2 and 4, characterized in that the burglar alarm sensor ( 1 ) with the components signal encoders ( 1a . 1b . 1c . 2 ), the sensor sensor ( 3 . 4a . 4b ) produces a constant change in attenuation a hundred times under operating conditions.

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