DE102012013037B3 - Monitoring system for monitoring open and close states of e.g. door of housing of overground power distributor cabinet for building, has switching element separating resistor and wedge from conductor and shield in door or lid open position - Google Patents

Abstract

The system has a central control and monitoring unit including a unit for impressing high frequency (HF)-signals on a middle inner conductor (5) and an outer metallic earth shield, receiving the returning HF-signals, and evaluating the returned HF-signals. Ends of the conductor and the shield stay in contact with a terminating resistor (16) and a damping wedge in an optical fiber-network distributor when a door or a lid is closed. A switching element (2) separates the resistor and the wedge from the conductor and the shield in an open position of the door or the lid.

Description

The invention relates to a monitoring system for the closed state (open / closed) of the door or the lid of a housing of a fiber optic network distributor.

The fiber optic power distribution may be a cabinet installed above ground and provided with a door, or a subterranean well accessible via a manhole cover. In the fiber optic distribution board are fiber optic cables for the transmission of telecommunications signals; Copper cables through which electricity could be supplied are not routed there. From a central office, the fiber optic cables are routed to the network distributor, split there and z. B. continued via Mikropipes to individual buildings.

It is important to be able to constantly check with such fiber optic power distribution, whether the door or manhole cover is properly closed or has been opened by unauthorized persons, for example by vandalism. In this case, an alarm from the grid distributor must be sent immediately to central monitoring.

In an earlier German patent application of the applicant of the present invention, a monitoring system for power distribution cabinets is described, in which a free fiber optic cable is used to monitor the closed state. This free fiber optic cable is connected at the end to a switch device which, via a mechanism, can detect the two possible states of the cabinet, "open" or "closed", via a reflection of light signals transmitted through the fiber optic cable. A disadvantage of this monitoring system is that with a complete occupancy of the network distribution cabinet, this fiber used for the monitoring system can not be used for data services.

JP 2001 165 811 A discloses a monitoring system of the closed state of a lid of a fiber optic cable connector by using one of the glass fibers of the cable. A metallic conductor is not provided here.

Out US Pat. No. 7,079,733 B2 It is known to close in a fiber optic cable with metallic conductors by measuring impedance changes to resistances in the coupling elements on a connection interruption of the cable back.

The present invention has for its object to provide a monitoring system of the type considered - in which it is not possible to use electricity as an energy source - specify that avoids the above-mentioned disadvantage.

This object is achieved by the features of claim 1.

Advantageous embodiments of the invention are characterized in the subclaims.

The invention makes use of the fact that in the power distribution cabinet (or shaft) in addition to the fiber optic cables usually also a metallic conductor is introduced. This is usually a reinforcing cable comprising a glass fiber bundle with a metal shell, wherein a reinforcing cable may also be provided with a metal wire or a metal core. This metal reinforcement of a glass fiber bundle is used according to the invention as an RF conductor, depending on the design of the reinforcing cable use in an HF waveguide mode or RF coaxial mode is possible.

In principle, in the context of the invention, a separate from the glass fiber cables metallic conductor can be used.

At the beginning of the RF conductor is impressed by a central control and monitoring unit, which is spatially separated from the fiber optic network distributor, an RF signal on the metallic conductor, which is transmitted via the line. The metallic conductor has a certain line resistance.

The invention further contemplates that the end of the metallic conductor is in contact with a terminating resistance corresponding to the line resistance of the electrical conductor when the door or lid (hereinafter only "door") is in the closed position, and a switch disconnects the terminator in an open position of the door from the metallic conductor.

It is within the scope of the invention that the arrangement can also be reversed by the terminating resistor is spaced from the end of the metallic conductor, when the door is in the closed position, and that by a mechanism of the terminating resistor in contact with the End of the metallic conductor is brought when the door is open. This can be realized in that the spring and magnetic forces described below act in opposite directions - ie by means of a tension spring and an inner magnet of opposite polarity.

When the end of the RF conductor is connected to the termination resistor, the impressed signal in the termination resistor becomes absorbed so that no reverse phase or no return echo occurs. On the other hand, in the case of an open termination, the signal wave is reflected at the end of the conductor, and the superposition of the wave traveling back and forth on the conductor results in a standing wave detectable by the central control and monitoring unit. When signal pulses are used, the time of reflection of the signals can also be determined.

These properties of an RF line and its termination are used according to the invention by a switching element is arranged near the door, which closes depending on the state of the door (open / closed) of the RF conductor each with its line impedance or leaves open.

In a preferred embodiment of the invention it is provided that the end of the metallic conductor is attached to a socket which is fixed in a holder which is fixed in the interior of the fiber optic power distribution in the vicinity of the door. In the holder is also a movable connector, which is provided with the terminating resistor and is moved back and forth in the holder to connect the terminator - depending on the closed state of the door - with the metallic conductor or to separate from this.

It is also proposed that a magnet is attached to the door in such a position that, when the door is closed, it faces a facing end wall of the holder. In the interior of the holder is located between the end wall and the movable plug another magnet with such polarity that it is repelled by the magnet attached to the door.

It is further provided that between the socket and the movable connector, a helical compression spring is arranged, which presses the movable connector with the magnet abutting thereto in the direction of the front end of the bracket.

When the door is closed and the magnet thereon is near or in contact with the front end of the holder, the inner magnet with the movable plug is pressed against the force of the helical compression spring into contact with the metallic conductor. When the door of the fiber-optic network distributor is opened and the magnetic force decreases, the helical compression spring pushes back the movable connector so that the terminating resistor gets out of contact with the metallic conductor.

In one embodiment of the invention, a coaxial cable leads into the fiber optic network distributor which has a metallic inner conductor and a cylindrical outer conductor. The RF signals are impressed on the inner conductor. In further details, it is proposed that the inner conductor is secured in the socket in a metal contact sleeve, which is electrically insulated from the preferably also made of metal socket. The movable plug has a correspondingly shaped inner conductor, which protrudes beyond the plug and during the advance of the movable connector in the contact sleeve - in electrical contact with this - occurs. If so, the RF electrical conductor is electrically connected to the terminator.

The outer conductor of the coaxial cable is secured in the metallic receptacle in electrical contact therewith. The movable plug has a corresponding outer conductor in sliding contact with the socket and connected to the terminating resistor and the inner conductor. When the door is closed thus there is an electrical connection between the inner conductor and the outer conductor of the coaxial cable.

In an alternative embodiment of the invention performs as a waveguide formed fiber optic cable in the fiber optic network distribution cabinet, in which a z. B. as Erdschirm provided cylindrical outer conductor surrounds a fiber optic bundle, wherein the glass fibers are led out of the waveguide before the switching element. In this embodiment, it is advantageously provided that the outer metal sleeve, to which the RF signals are impressed, are fastened in the socket and preferably extends as far as the rear end face thereof. The movable plug has a metal sleeve of the same diameter, which is connected at its side facing away from the socket rear with a damping wedge. When the movable plug is brought with its protruding metal sleeve in contact with the metal sleeve of the waveguide, the RF waveguide is closed, d. H. there is no return echo.

Further details of the invention will become apparent from the following description of two preferred embodiments and from the drawings. In a largely schematic way:

1 an embodiment of a switching element with a coaxial cable, in the closed state without Rückwärtsecho;

2 the switching element of 1 in open condition with return echo;

3 a second embodiment of the switching element with a waveguide in the closed state without Rücklaufecho and

4 the switching element of 3 in open condition with return echo.

In the in the 1 and 2 illustrated embodiment is a coaxial cable 1 with a switching element 2 connected in a fiber optic power distribution cabinet (not shown) near or in contact with a magnet 3 is attached, which is located on the (not shown) door of the fiber-optic power distribution cabinet. The coaxial cable 1 has an outer conductor covered by an insulation 4 and a central inner conductor 5 to which the RF signals are impressed. The fiber cables carried in the coaxial cable are in front of the switching element 2 out of the coaxial cable.

The switching element 2 contains a holder 6 in which a socket 7 made of metal is fixed by the socket 7 with a ring collar 8th on an inner annular projection 9 the holder 6 abuts and in this position by a union nut 10 is held. The outer conductor 4 of the coaxial cable 1 grips into the socket 7 and is in electrical contact with this. The inner conductor 5 stands over the outer conductor 4 out with an end portion 11 before and sits in a contact sleeve 12 , made by an insulating outer sleeve 13 surrounded and thus electrically isolated from the receptacle.

In the holder 6 There is also a movable plug 14 , one of the inner conductor 5 corresponding inner conductor 15 , an electrically connected terminating resistor 16 and an outer conductor electrically connected thereto 17 whose diameter with that of the outer conductor 4 matches. Between an end wall 18 of the movable plug 14 and one on the socket 7 screwed union nut 19 is a helical compression spring 20 arranged in the closed state of the switching element according to 1 is compressed.

This condition is due to an internal magnet 21 caused when the door is closed by the magnet fixed there 3 in the presentation of the 1 is pushed to the left and thus the movable plug 14 advances, with a protruding section 21 of the inner conductor 15 in the contact sleeve 12 entry. As the front end portion of the outer conductor 17 in contact with the socket 7 is the inner conductor 5 of the coaxial cable with its outer conductor 4 electrically connected. The terminator 16 causes no return echo in the inner conductor 5 occurs.

The holder 6 is at its rear end of a screwed lid with the interposition of an O-ring seal 23 tightly closed.

In the in 2 illustrated open state of the switching element is the magnet 3 so far from the bracket 6 removes that no magnetic forces on the magnet 21 act. The helical compression spring 20 therefore pushes the movable plug 14 so far in the presentation of 2 to the right until the magnet 21 on the lid 22 is applied. In this state is the inner conductor 15 from the contact sleeve 12 leaked, leaving no connection between the inner conductor 5 and the inner conductor 15 consists. The switching element 2 is open, so that a return echo occurs.

In the in the 3 and 4 illustrated embodiment is a waveguide 24 with the switching element 2 connected. The waveguide contains an outer metal ground shield 25 around a glass fiber bundle 26 that before the switching element 2 is led out of the waveguide. On the outer conductor serving as ground shield 25 the RF signals are impressed. The outer conductor 25 is in a socket 27 attached and extends to the movable plug 28 facing end face 29 , The movable plug has an outer conductor 30a of the same diameter at its socket 27 facing away back with a damping wedge 31 connected is.

At the in 3 illustrated closed position of the switching element 2 is the outer conductor 30a of the movable plug 28 in contact with the outer conductor 25 of the waveguide 24 , Thus, the switching element is closed and it occurs as a result of the damping wedge 30 no return echo.

In the open state of the switching element of the second embodiment is again the magnet 3 In addition, the range of the switching element, so that the movable connector 28 and the magnet 21 from the helical compression spring 20 is pressed to the right, the outer conductor 30a from the socket 27 and thus from the outer conductor 25 is removed. The switching element is thus open, and there is a return echo.

Claims (10)

Monitoring system for the closed state (open / closed) of a door or a lid of a glass fiber network distributor, the fiber optic cable and at least one metallic conductor are supplied, characterized in that a central control and monitoring unit is arranged spatially separated from the glass fiber network distributor, the Means for impressing RF signals on the metallic conductor ( 5 . 25 ) and Receiving return RF signals and their evaluation has the fact that the end of the metallic conductor ( 5 . 25 ) in the fiber optic network distributor with a terminating resistor ( 16 . 30 ), the the conduction wave resistance of the electrical conductor ( 5 . 25 ) is in contact, when the door or the lid is closed, and that a switching element ( 2 ) the terminator ( 16 . 30 ) in an open position of the door or the lid of the metallic conductor ( 5 . 25 ) separates. Monitoring system for the closed state (open / closed) of a door or a lid of a fiber-optic network distributor, the fiber optic cable and at least one metallic conductor are supplied, characterized, a central control and monitoring unit is arranged spatially separate from the fiber-optic network distributor, which has means for impressing RF signals on the metallic conductor and for receiving returned RF signals and their evaluation, that the end of the metallic conductor in the fiber optic network distributor is spaced from a terminating resistor corresponding to the line resistance of the electrical conductor when the door or lid is closed, and a switching element connects the terminating resistor in an open position of the door or lid to the end of the metallic conductor. Monitoring system according to claim 1 or 2, characterized in that the metallic conductor ( 5 ) an inner conductor of a coaxial cable ( 1 ). Monitoring system according to claim 1 or 2, characterized in that the metallic conductor ( 25 ) an outer metal sleeve of a waveguide ( 24 ). Monitoring system according to claims 1 to 4, characterized in that the end of the metallic conductor ( 5 . 25 ) with a socket ( 7 . 27 ) provided in a holder ( 6 ), in which a movable plug ( 14 . 28 ) with the terminating resistor ( 16 . 30 ) is arranged displaceable back and forth. Monitoring system according to claim 5, characterized in that a magnet fixed to the door or lid ( 3 ) the movable plug ( 14 . 28 ) against spring force, when the door or the lid is closed, such that the terminating resistor ( 16 . 30 ) in contact with the metallic conductor ( 5 . 25 ) device. Monitoring system according to claims 1 to 6, characterized in that the movable plug ( 14 . 28 ) with a magnet ( 21 ) is provided. Monitoring system according to claims 1 to 3 and 5 to 7, characterized in that the end portion of the inner conductor ( 5 ) of the coaxial cable ( 1 ) in the socket ( 7 ) in an insulated from the socket electrically conductive contact sleeve ( 12 ), in which a corresponding inner conductor ( 15 ) of the movable connector ( 14 ) can be inserted. Monitoring system according to claim 8, characterized in that the coaxial cable ( 1 ) a cylindrical outer conductor ( 4 ) in contact with the electrically conductive socket ( 7 ), and that the movable plug ( 14 ) a corresponding outer conductor ( 17 ) in contact with the terminating resistor ( 16 ) and the socket ( 7 ) stands. Monitoring system according to claims 1 and 2 and 4 to 7, characterized in that the outer metal sleeve ( 25 ) of the waveguide ( 24 ) in the socket ( 27 ) and that the movable plug ( 28 ) a corresponding metal sleeve ( 30a ) equipped with a damping wedge ( 30 ) connected is.

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