WO2006094570A1 - Distribution device pertaining to a telecommunication installation - Google Patents

Abstract

The invention relates to a distribution device, namely a distribution block, pertaining to a telecommunication installation. Said distribution device comprises a receiving device (11), a plurality of control bars (12), and a plurality of wire guiding elements (13). The control bars (12) comprise contacts (14), on a front side, for the connection of incoming or outgoing cable conductors, and the wire guiding elements (13) comprise wire guiding channels (15, 16) forming wire guiding planes, for guiding the cable conductors. The control bars (12) and the wire guiding elements (13) are arranged in the receiving device (11) in a sandwich-type manner, in such a way that at least one wire guiding element (13) is arranged on at least one side of each toolbar (12), and at least one wire guiding plane is located between two adjacent control bars (12). According to the invention, cable conductors pertaining to different subscribers, which co-operate with different control bars (12) and extend in different wire guiding planes (13), and cable conductors pertaining to different subscribers, which co-operate with the same control bar (12) and extend in the same wire guiding plane (13), are shielded from each other.

Description

CCS Technology, Inc. January 09, 2006

103 Foulk Road

Wilmington, Delaware 19803 CCS.305.01 PCT

USA

Distribution device of a telecommunications system

The invention relates to a distribution device of a telecommunications system according to the preamble of claim 1.

DE 100 29 870 A1 discloses a distribution device of a telecommunications system with a receiving device designed as a receptacle in which a plurality of function strips and wire guide elements are positioned one above the other in a sandwich manner. The toolbars have contacts on one front for connecting incoming or outgoing cable cores. The wire guide elements have wire guide levels forming wire guide channels for guiding the cable core. The function strips and the wire guide elements are sandwiched over one another such that several wire guide planes with wire guide channels are positioned between two adjacent function strips. Furthermore, it is already known from DE 100 29 870 A1 to integrate into the distribution device so-called xDSL splitter devices which can be inserted into the functional strips on a rear side in order to transmit low-frequency speech signals and high-frequency data signals via the incoming or outgoing cable cores merge or separate.

To realize high packing densities, the function strips and wire guide elements are designed with the smallest possible dimensions and as compact as possible. Cable cores are therefore close to each other. In particular, in the transmission of data with high transmission frequencies, it can be between cable wires of different participants, in such a Manifold block are wired or wired, come to an undesirable so-called near-end crosstalk. This is particularly the case when ADSL services with high transmission frequencies or VDSL services are transmitted on the cable wires. The mutual influence of subscribers by the so-called near-end crosstalk affects the transmission quality and is disadvantageous overall.

On this basis, the present invention is based on the problem to create a novel distribution device of a telecommunications system.

This problem is solved by a distributor device having the features of claim 1. According to the invention on the one hand with different toolbars cooperating and extending in different Drahtführungs- levels cable cores different participants and on the other hand with the same toolbar cooperating and extending in the same wire management level cable cores of different participants against each other.

With the present invention, it is proposed for the first time to comprehensively shield the cable cores of different subscribers to be wired or ranked at a distributor device. Thus, both the cable cores of different subscribers, which cooperate with different function strips and run in different wire guide planes, are shielded against each other as well as the cable cores of different subscribers cooperating with the same function strip and extending in the same wire guidance plane. For each subscriber, therefore, a subscriber zone is created within the distributor device, which is shielded from other subscriber zones, so that undesired near-end crosstalk between different subscribers can be excluded. This improves the transmission quality. According to an advantageous development of the invention, at least some of the wire guide elements have a plurality of wire guide planes comprising a plurality of wire guide channels, the wire guide planes being parallel to the toolbars, and metallic or metallized plate-shaped shielding elements being disposed between the wire guide planes of a wire guide element and between the wire guide planes of adjacent wire guide elements , which are conductively connected to the receiving device. The wire guide elements have arcuate partitions which separate wire guide channels extending in a wire guide plane, the partitions being metallic or metallised, and wherein the partitions are conductively connected to the receptacle.

According to an alternative advantageous development of the invention, the wire guide elements are formed completely metallic or metallized, wherein the wire guide elements are conductively connected to the receiving device.

Preferably, a rear side of at least one function strip engages with the same interacting xDSL splitter devices in order to merge or separate low-frequency speech signals and high-frequency data signals to be conducted via the incoming or outgoing cable cores, the xDSL splitter devices acting on the respective function strip being connected by a metallic or metallized cover are concluded, the cover is conductively connected to the receiving device.

Preferably, contact elements of a metallic or metallized shielding strip can be connected to those contacts of a function strip to which shielding cable conductors are contacted, wherein the shielding strip is conductively connected to the receiving device. The metal or metallised shielding strip extends over all contacts of a radio tion bar, but the same engages on their contact elements only on such contacts of the toolbar, are connected to which Schirmungs cable cores.

Preferred embodiments of the invention will become apparent from the dependent claims and the description below. Embodiments will be explained in more detail with reference to the drawing. In the drawing shows:

1 shows a distribution device according to the invention in a perspective front view.

Fig. 2 is an enlarged detail of the distribution device according to the invention in

Front view;

FIG. 3 shows the distributor device according to the invention of FIG. 1 with a framed zone comprising a plurality of subscriber zones; FIG. FIG. 4 shows the detail of FIG. 2 with framed subscriber zones; FIG.

5 shows a wire guide element of the distribution device according to the invention in a perspective exploded view;

6 shows a functional strip of the distributor device according to the invention together with xDSL splitter devices thereof in a perspective front view;

7 shows a functional strip of the distributor device according to the invention together with a screening strip thereof in a perspective front view; and

8 shows the arrangement of FIG. 7 in a perspective rear view with removed shielding strip.

The present invention will be described below with reference to FIGS. 1 to 8 using the example of a distributor device in which xDSL splitter devices are integrated. It should be noted, however, that the invention is not limited to such distributor devices, but rather can also be used in distributor devices in which no such xDSL splitter devices are integrated. 1 shows a distributor device according to the invention, which is designed as a distributor block 10 and comprises a receiving device designed as a receiving trough 11, wherein a plurality of functional strips 12 and wire guiding elements 13 are arranged in the receiving trough 11 in sandwiched fashion. FIG. 2 shows an enlarged detail of the distributor block 10 of FIG. 1 in the region of three functional strips 12.

The toolbars 12 have multiple contacts 14 for incoming and outgoing cable cores. The contacts 14 of each toolbar 12 preferably extend in two parallel rows. In the exemplary embodiment shown, at least one wire guiding element 13 is arranged on each side of a functional strip 12. Thus, FIG. 2 shows that the wire guide elements 13 arranged above the function strips 12 form wire guide channels 15 with relatively large cross sections, whereas the wire guide elements 13 positioned below the function strips 12 delimit wire guide channels 16 with relatively small cross sections. Thus, in the above the toolbars 12 positioned wire guide elements 13 a total of eight wire guide channels 15 are positioned side by side, forming a Drahtführungs- level. Sixteen wire guide channels 16 are juxtaposed and two wire guide channels 16 are positioned one above the other in the wire guide elements 13 positioned below the function strips 12, whereby the wire guide elements 13 arranged beneath the function strips 12 each form two wire guide planes. In the embodiment shown, therefore, two wire guide elements 13 are positioned between two adjacent function strips 12, which form three wire guide planes.

It should be noted at this point that the number of wire guide elements 13 shown in FIGS. 1 and 2 and wire guide levels formed by the wire guide elements 13 are purely exemplary. For the purposes of the present invention, it is proposed that the cable cores in the wire guide channels 15 and 16 of the wire guide elements 13 of all participants to be shunted or wired to the distributor block 10 be shielded from each other so as to avoid the so-called Nahnebenspre Chen between participants. For this purpose, in the sense of the present invention on the one hand with different toolbars 12 cooperating and running in different wire guide elements 13 and wire guide levels cable cores of different participants and on the other hand with the same toolbar 12 cooperating and running in the same wire guide element or in the same wire management level cable cores of different participants against each other.

3 and 4 show the distributor block 10 of FIGS. 1 and 2 with a framed zone 17, which comprises a function bar 12 and the wire guide elements 13 positioned above and below the function bar 12. The functional strip 12 of the subscriber zone 17 serves in the exemplary embodiment shown for the wiring or maneuvering of cable cores for four different subscribers, so that the zone 17 comprises a total of four subscriber zones 18. Each of the subscriber zones 18 represents a self-shielded area so that near-end crosstalk can be effectively avoided both between vertically adjacent participants and between horizontally adjacent participants.

According to a first alternative of the present invention, the shielding of subscriber zones 18, which comprise different or adjacent function strips 12, is realized by arranging in each case a metallic or metallised, plate-shaped shielding element 19 between the adjacent wire guide elements 13 of adjacent zones 17. 1 and 3 it can be seen that these plate-shaped shielding elements 19 protrude at the front side of the distributor block 10 or at the front side of the function bars 12 with respect to the contacts 14 of the function bars 12, so that an optical boundary is formed between adjacent zones 17. The metallic or metallized, plate-shaped shielding elements 19 are electrically conductively connected to the metallic receptacle 11.

According to an advantageous development, metal or metallized piattelike shielding elements 20 are also arranged between the wire guide planes formed by the wire guide channels 16 of a wire guide element 13. These shielding elements 20 are then in turn conductively connected to the receptacle 11. In this way, a shielding between the adjacent wire guiding planes of a wire guiding element 13 is then also realized within each zone 17 or the subscriber zones 18 thereof.

According to this first alternative of the present invention, the shielding between the subscriber zones 18 of a zone 17, which includes a Funktionsle- te 12, realized in that arcuate partition walls 21 of the wire guide elements 13 are made metallic or metallized. The partitions 21 separate the wire guide channels extending in the wire guide channels 15 and 16 from each other.

Fig. 5 shows a wire guide member 13 in an exploded view, which is formed by two half-shells 22 and 23, which form the partitions 21 between adjacent wire guide channels 15 in the assembled state. These half shells 22 and 23 are preferably made of plastic, wherein the desired shielding between subscriber zones 18 of a zone 17 can be realized by metallizing at least some of the partitions 21. Preferably, all partitions 21 are metallized, so that in this way each wire guide channel 15 and 16 forms a self-shielded Faradag cage.

According to a second alternative of the present invention, the above-described shielding between the subscriber zones 18 of the same zone 17 and the subscriber zones 18 of adjacent zones 17 can also be realized thereby be that the wire guide elements 13, namely the half-shells 22 and 23 thereof, are formed completely or completely metallic or metallized. The wire guide elements are then in turn conductively connected to the metallic receptacle 11. In this case, the plate-like shield elements 19 between adjacent wire guide elements 13 can be dispensed with.

In the exemplary embodiment shown, as already mentioned, xDSL splitter devices 24 (see FIG. 6) are plugged into the function strips 12 on a rear side thereof. To further improve the shielding, it is proposed according to a development of the invention to shield the xDSL splitter device 24 assigned to a toolbar 12 by means of a metallic or metallized cover 25, this cover 25 being in turn conductively connected to the receptacle 11.

Furthermore, it can be provided to shield the contacts 14 of a functional strip 12 via a shielding strip 26 (see FIGS. 7, 8). The Schirmungsleiste 26 is designed as a metallic or metallized assembly, which has contact elements 27. The contact elements 27 can be contacted to those contacts 24 of the function strip 12, to which shielding cable cores are connected by subscribers. As can be seen in FIG. 7, the shielding strip 26 extends over all the contacts 24 of a function strip 12, but it is connected only to the contacts 24 of the function strip 12, to which shielding cable electrodes engage. Via lateral, metallic or metallized bracket 28, an electrically conductive contact of the shielding strip 26 to the receptacle 11 can be realized.

Accordingly, in the context of the present invention, mutually shielded subscriber zones 18 are provided in a distributor block 10, whereby the shielding effect can be markedly improved compared to distribution devices known from the prior art. Mutual influences of participants are thus eliminated. LIST OF REFERENCE NUMBERS

10 distribution block 11 receptacle

12 Toolbar

13 wire guide element

14 contact

15 wire guide channel 16 wire guide channel

17 zone

18 participant zone

19 shielding element

20 Shielding element 21 partition

22 half shell

23 half shell

24 xDSL splitter setup

25 cover 26 shielding strip

27 contact element

28 stirrups

Claims

claims

1. Distribution device, namely distribution block, a telecommunications system, with a receiving device (11), with several Funktionsle- th (12) and with a plurality of wire guide elements (13), wherein the

Function bars (12) on a front side contacts (14) for the connection of incoming or outgoing cable cores, wherein the wire guide elements (13) wire guide levels forming wire guide channels (15, 16) for guiding the cable cores, and wherein the function strips ( 12) and the wire guide elements (13) in the

Receiving device (11) are arranged sandwiched one above the other, that at least one side of each toolbar (12) at least one wire guide element (13) is arranged, and that between two adjacent toolbars (12) at least one wire guide plane is positioned, characterized on the one hand with different function strips (12) cooperating and in different wire guide planes (13) extending cable cores of different participants and on the other hand with the same toolbar (12) cooperating and in the same wire guide plane (13) extending cable cores of different participants are shielded from each other.

2. Distributor device according to claim 1, characterized in that a plurality of wire guide planes are positioned between two adjacent toolbars (12), and that metallic or metallized, plate-shaped shielding elements (19, 20) are arranged between adjacent wire guide planes. 11) are connected.

3. Distributor device according to claim 1 or 2, characterized in that at least some of the wire guide elements (13) have a plurality of wire guide levels of a plurality of wire guide channels (16), wherein the wire guide planes extend parallel to the function strips (12), and wherein between the wire guide planes of a wire guide element (13) metallic or metallized, plate-shaped shielding elements (20) are arranged, which are conductively connected to the receiving device (11).

4. Distributor device according to one or more of claims 1 to 3, characterized in that on both sides of each toolbar (12) at least one wire guide element (13) is arranged, so that between two adjacent toolbars (12) at least two wire guide elements (13) are positioned, wherein between adjacent wire guide elements (13) metallic or metallized, plate-shaped shielding elements (19) are arranged, which are conductively connected to the receiving device (12).

5. Distributor device according to one or more of claims 1 to 4, characterized in that the wire guide elements (13) arcuately extending partitions (21), the NEN in a wire guide plane wire guide channels (15, 16) separated from each other, wherein at least some of Partitions (21) are metallic or metallized, and wherein the partitions (21) are conductively connected to the receiving device (11).

6. Distributor device according to claim 1, characterized in that the wire guide elements (13) are formed completely metallic or metallized, wherein the wire guide elements (13) are conductively connected to the receiving device (11).

7. Distribution device according to one or more of claims 1 to 6, characterized in that preferably on a rear side of at least one toolbar (12) with the same cooperating xDSL splitter devices (24) attack to the oncoming low-frequency speech signals and high-frequency data signals to be routed or separated from each other, the xDSL splitter devices (24) acting on the respective function strip (12) being enclosed by a metallic or metallised cover (25), the Cover (25) is conductively connected to the receiving device (24).

8. Distributor device according to one or more of Claims 1 to 7, characterized in that contact elements (27) of a metallic or metallized shielding strip (26) are connected to the contacts (14) of a functional strip (12) to which shielding cable conductors are contacted ) are connectable, wherein the Schirmungsleiste (26) is conductively connected to the receiving device (11).

9. Distribution device according to claim 8, characterized in that the metallic or metallised shielding strip (26) extends over all the contacts (14) of a function strip (12), but acts on the contact elements (27) only on such contacts (14) of the function strip to which shielding cable lugs are connected.

10. Distribution device according to claim 8 or 9, characterized in that the metallic or metallized Schirmungsleiste (26) via lateral bracket (28) with the receiving device (11) is conductively connected.