EP2174174A1 - System of a plurality of fiber optic distribution devices - Google Patents

Abstract

The invention relates to a system comprising a plurality of fiber optic distribution devices, said system having a first number of logical groups of fiber optic distribution devices, wherein each logical group comprises a second number of fiber optic distribution devices and wherein: a) in order to guarantee a structured wiring of fiber optic assemblies within a logical group of fiber optic distribution devices, only two lengths of prefabricated patch cable are provided, namely, a first length that is designed for wiring fiber optic assemblies within a fiber optic distribution device, and a second length that is designed for wiring fiber optic assemblies between fiber optic distribution devices located at a maximum distance from one another within the respective logical group. When it is necessary to wire fiber optic assemblies between fiber optic distribution devices within the same logical group that are not located at a maximum distance from one another, the corresponding excess length of the patch cable designed for the maximum distance may be deposited inside the respective target fiber optic distributor device in an excess length storage device of the target fiber optic distribution device; b) in order to guarantee a structured wiring of fiber optic assemblies of two different logical groups of fiber optic distribution devices, a length of prefabricated patch cable is provided that is designed for wiring fiber optic assemblies of fiber optic distribution devices located in the two logical groups at a maximum distance from one another. When it is necessary to wire fiber optic assemblies of fiber optic distribution devices in the two logical groups that are not located at a maximum distance from one another, the corresponding excess length of the patch cable designed for the maximum distance may be deposited inside the respective target fiber optic distributor device in an excess length storage device of the target fiber optic distribution device.

Description

 System of several optical waveguide distribution devices

The invention relates to a system comprising a plurality of optical waveguide distribution devices.

When building optical fiber cable networks, fiber optic distribution facilities are needed to provide structured cabling.

From the product catalog "Accessories for fiber optic cable networks, Issue 1, Corning Cable Systems, page 150, year 2001" is designed as a distribution cabinet optical fiber distribution device is known in which form as rack racks receptacle, wherein in the racks fiber optic assemblies are positioned between to ensure a structured cabling on both sides with fiber optic connectors pre-assembled patch cords.

Then, when a variety of fiber optic assemblies are needed to construct a fiber optic cable network, these assemblies must be maintained in a plurality of fiber optic distribution devices, which then form a system of multiple fiber optic distribution devices. In this case, on the one hand, a structured cabling of fiber-optic assemblies within an optical waveguide distribution device and, on the other hand, a structured cabling of fiber-optic assemblies of different optical waveguide distribution devices must be ensured. From practice, two principal approaches are known to ensure such a structured wiring in a system of multiple optical fiber distribution devices. According to a first procedure, a precisely defined length of a patch cable is kept available for each cabling between two fiber-optic assemblies, so that no excess lengths arise within the system from a plurality of optical fiber distributor devices. For this purpose, a variety of different length patch cables must be kept. According to a second approach, only a single length of patch cable is provided, which is designed to be at the maximum distance between fiber optic assemblies to be wired, in which case different lengths of overlength arise in the system, which must be handled accordingly. The handling of the overlengths causes difficulties, so that under certain circumstances optical waveguide distribution devices must be kept available that do not absorb any fiber-optic assemblies but only excess lengths.

On this basis, the present invention based on the problem to provide a system of a plurality of optical fiber distribution devices with a structured wiring.

This problem is solved by a system of a plurality of optical waveguide distribution devices according to claim 1.

The system according to the invention comprising a plurality of optical waveguide distribution devices has a first number of logical groups of optical waveguide distribution devices, wherein each logical group comprises a second number of optical waveguide distribution devices, and wherein: a) for ensuring a structured cabling of fiber-optic assemblies within a logical group of optical waveguide distribution devices two Lengths are kept ready on prefabricated patch cables, namely a first length, which is designed for cabling of fiber-optic assemblies within an optical waveguide distribution device, and a second length, which is designed to cabling fiber optic assemblies between within the respective logical group of the maximum spaced optical fiber distribution devices, wherein, if a wiring of fiber optic assemblies between within the respective logical group not maximally spaced optical fiber distribution devices to make, in the respective target optical fiber distribution means the corresponding excess length the maximum distance patch cable can be deposited on an overrange storage device of the destination fiber distribution device; b) to ensure a structured cabling of fiber optic assemblies of two different logical groups of fiber optic distribution devices a length of prefabricated patch cables is kept, which is designed to cabling fiber optic assemblies of in the two logical groups maximum spaced optical waveguide distribution devices, in which case, if a cabling Fiber optic assemblies of not optimally spaced in the two logical groups optical waveguide distribution devices is made, in the respective target optical waveguide distribution device, the corresponding excess length of the maximum distance designed patch cable to a Überiängenspeichereinrichtung the target optical waveguide distribution device can be stored.

In the system according to the invention comprising a plurality of optical waveguide distribution devices, structured cabling is made possible between fiber-optic assemblies which are arbitrarily scalable in a defined combination of different lengths of patch cables and corresponding over-length storage devices within the optical waveguide distribution devices and subsequent interventions on the cabling and corresponding changes thereof with little effort , Furthermore, even in the case of a large number of optical waveguide distribution devices, no optical waveguide distribution devices are required within the system according to the invention which exclusively serve to handle excess lengths. Preferred embodiments of the invention will become apparent from the dependent claims and the description below. Embodiments of the invention will be described, without being limited thereto, with reference to the drawing. In the drawing shows:

1 shows a schematic representation of a system according to the invention comprising a plurality of optical waveguide distribution devices;

FIG. 2: an optical waveguide distribution device of the system according to the invention in front view with pivoted-in pivoting frame; FIG. and FIG. 3 shows an optical waveguide distribution device of the system according to the invention in a side view with the swivel frame swung out.

1 shows a schematic representation of a system according to the invention comprising a plurality of optical waveguide distribution devices, wherein in the exemplary embodiment of FIG. 2 the system 10 according to the invention comprises two logical groups 11, 12 of three optical waveguide distribution devices 13, 14 and 15. The optical waveguide distribution devices 13, 14 and 15 are so-called optical waveguide distribution cabinets, wherein each optical waveguide distribution cabinet usually accommodates a plurality of racks, wherein each rack accommodates a plurality of fiber optic assemblies, between which a structured cabling is to be provided by patch cables within the system according to the invention. Patch cables are pre-assembled fiber optic cables on both sides with fiber optic connectors.

2 and 3 show an optical waveguide cabinet designed optical waveguide distribution device 13 or 14 and 15 of a logical group 11 and 12 of the system according to the invention in isolation, wherein such a fiber optic distribution device comprises a pivotally mounted in a housing or frame 16 pivot frame 17, the Subrack 18 receives with fiber optic assemblies. As already stated, in the exemplary embodiment shown in FIG. 1, the system according to the invention comprises a plurality of optical waveguide distribution devices, two logical groups 11, 12 of optical waveguide distribution devices, each of the two logical groups 11, 12 comprising three optical waveguide distribution devices 13, 14 and 15. It should already be pointed out at this point that the number of logical groups of optical waveguide distribution devices and the number of optical waveguide distribution devices per logical group is arbitrary and thus freely scalable.

To ensure structured cabling between fiber optic assemblies within each logical group 11, 12 of fiber optic manifolds, only two lengths of pre-terminated patch cords are provided. A first length, which is not shown in FIG. 1, is designed for the cabling of fiber-optic assemblies within an optical waveguide distribution device 13 or 14 or 15. A second length is designed for the cabling of fiber optic assemblies between within the respective logical group 11, 12 maximum spaced optical waveguide distribution devices, which in the embodiment of FIG. 1 is the optical waveguide distribution devices 13, 15. 1 shows a patch cable 19, which has the second length, that is, is designed for the cabling of fiber-optic assemblies between the optical waveguide distribution devices 13, 15 which are maximally spaced apart within the respective logical group 11, 12. If a wiring with this patch cable 19 between the fiber optic assemblies of the Lichtwellenleitererverteilereinrich- lines 13, 15, so no excess lengths must be handled.

Such a patch cable with the second length, which is designed to within a logical group of maximum spaced optical waveguide distribution devices, is also used when a wiring between not within the respective logical group not maximally spaced optical waveguide distribution devices to make, ie, as shown in FIG. B. between the optical waveguide distribution devices 13, 14 of the logical group eleventh In this case, in the respective target optical waveguide distribution device, in the exemplary embodiment shown in FIG. 1 in the optical waveguide distribution device 14, the corresponding excess length 20 of the patch cable 19 designed for the maximum distance is handled at an excess length memory device of the destination optical waveguide distribution device. stored. This excess length to be handled is a defined excess length which corresponds to the difference distance between the maximum distance within the logical group and the distance to the respective target optical waveguide distributor device.

Accordingly, if a logical group of optical waveguide distribution devices has a number N of optical waveguide distribution devices, only two lengths of prefabricated patch cables are provided for the structured cabling of fiber-optic assemblies within the respective logical group. A first length is used to cabling fiber optic assemblies within an optical fiber distribution manifold. A second length is used to cabling fiber optic assemblies of different fiber optic distribution devices within the logical group, the second length being aligned with the maximum spacing of fiber optic distribution devices within the respective logical group.

Patch cords of this second length are also used when cabling fiber optic assemblies between two fiber optic manifolds that are not maximally spaced within the respective logical group, and then handle the corresponding excess length of the second length patch cord in the target cabinet. Each optical waveguide distribution device has a number N-1 overlay storage devices for depositing different lengths of overlength. To ensure a structured cabling of fiber optic assemblies of two different logical groups of optical fiber distribution devices only one length of ready-made patch cables is kept ready, this length is designed for the wiring of fiber optic assemblies that are maximally spaced in the two logical groups.

In the exemplary embodiment shown, this length of a patch cable is designed for the maximum distance between the optical waveguide distributor device 13 of the logical group 11 and the optical waveguide distributor device 15 of the logical group 12, wherein a corresponding patch cable 21 for cabling fiber-optic assemblies between the maximum-spaced optical waveguide distribution devices of the two logical groups is used, no excess length is incurred.

Even if a wiring of fiber optic assemblies between not within the two logical groups 11, 12 not maximally spaced optical waveguide distribution devices is to make, as shown in FIG. 1, a patch cable 21 is used with the designed for the maximum distance length, and then corresponding, defined Overlengths are incurred, which are stored or handled in the respective target optical waveguide distribution device. The resulting excess lengths correspond to the excess lengths that can arise in the wiring of fiber optic assemblies within a logical group.

Thus, Fig. 1 shows that when with the patch cable 21 whose length is designed for the maximum distance between the optical fiber distribution means 13 of the logical group 11 and the optical fiber distribution means 15 of the logical group 12, for wiring between the optical fiber distribution means 13 of the logical Group 11 and the optical fiber distribution means 14 of the logical group 12 is used, a simple Überläge 22 is to be handled. If such a patch cable 21 is used for wiring between the optical waveguide distribution device 13 of the logical group 11 and the optical waveguide distribution device 13 of the logical group 12, then in the optical waveguide distribution device 13 of the logical group 12, which then is the target optical waveguide distribution device, to handle a double excess length 23. In the above manner, the system according to the invention can be extended by further logical groups of optical waveguide distribution devices.

Then, if each logical group comprises a number N, in particular three, optical waveguide distribution devices, only a maximum of N-1, in particular two, different handednesses are to be handled, in particular according to FIG. 1 either a simple excess length or a twofold excess length. In the corresponding target optical waveguide distribution device corresponding Überiängenspeichereinrichtungen are present for each excess length. If the system according to the invention comprises a number M of logical groups of N optical waveguide distribution devices, a maximum of a number M + 1 of defined length, prefabricated patch cords must be kept available and, for each optical waveguide distribution device, maximum overlength storage devices for N-1 defined different excess lengths must be kept ready.

Referring to Fig. 3 which shows a side view of an optical fiber distribution device with a swinging frame 17 pivoted out therefrom, overlay devices 24, 25 for handling the excess lengths involved in establishing a cabling by means of patch cords 19, 21 between different fiber optic distribution cabinets are a backside associated with the swing frame 17. The excess length memories 24 serve to handle a simple excess length, the excess length storage means 25 serve to handle a double excess length. Accordingly, the optical waveguide distribution device shown in FIG. 3 is the optical waveguide distribution device 13 of the logical group 12. FIG. 2 shows a front view of the optical waveguide distribution device 13 with the swivel frame 17 pivoted in, and thus a front view of the swiveling frame 17. FIG. 2 shows that an overcapacity storage device 26 is associated with a front side of the swing frame to handle excess lengths when fiber optic assemblies within an optical fiber distribution device 13 are to be cabled using a patch cord 27 of the first length.

LIST OF REFERENCE NUMBERS

10 system

11 logical group 12 logical group

13 optical fiber distribution device

14 optical fiber distribution device

15 optical fiber distribution device

16 frame 17 swing frame

18 subracks

19 patch cables

20 excess length

21 patch cable 22 excess length

23 excess length

24 Overlength storage device

25 Overlength storage device

26 Overlength storage device 27 Patch cable

Claims

claims

1. System comprising a plurality of optical waveguide distribution devices, wherein each fiber distribution device at least one rack receives, are positioned in the fiber optic assemblies, between which a structured wiring on both sides with fiber optic connectors prefabricated patch cables is to be ensured, with a first number of logical groups of optical fiber distribution devices each logical group comprises a second number of optical fiber distribution manifolds, wherein: a) to provide structured cabling of fiber optic assemblies within a fiber optic distribution manifold logical group, only two lengths of prefabricated patch cords, a first length based on cabling of fiber optic assemblies within a fiber-optic distribution device is designed, and a second length, which depends on a wiring of fas eroptischen assemblies is designed between within the respective logical group of spaced-apart optical fiber distribution devices gene, wherein when wiring of fiber optic assemblies between within the respective logical group not maximally spaced optical waveguide distribution devices is to make in the respective target optical fiber distribution means the corresponding excess length of the on the maximum spaced patch cable to an excess length storage device of the target optical fiber distribution device can be stored; b) to ensure a structured cabling of fiber optic assemblies of two different logical groups of fiber optic distribution devices a length of pre-assembled patch cables is kept, based on a cabling of fiber optic assemblies of the two logical groups in the respective target optical fiber distribution means, the corresponding excess length of the maximum pitch patch cable at an over-length storage means of the target optical fiber distribution means can be stored.

A system according to claim 1, characterized in that each logical group comprises a number N of optical fiber distribution means.

3. System according to claim 2, characterized in that each fiber optic distribution means comprises a number N-1 overlength storage means for depositing different lengths of overlength involved in the cabling of fiber optic assemblies between within the respective logical group of not maximally spaced optical fiber distribution means or in the wiring arise from fiber optic assemblies between in the two logical groups not maximally spaced optical waveguide distribution devices.

4. System according to any one of claims 1 to 3, characterized in that it comprises a number M of logical groups of optical waveguide distribution devices.

5. System according to claim 4, characterized in that a number of a maximum of M + 1 different lengths, prefabricated patch cables is kept.