WO2008089837A1 - Distributor device of a telecommunication system - Google Patents

Abstract

The invention relates to a distributor device, namely a distributor block, of a telecommunication system, having a plurality of functional elements (11) and a plurality of wire guiding elements (12, 13), wherein each functional element has contacts of a plurality of connecting elements for connecting cable cores, the contacts being grouped into two rows disposed on top of each other on a front, which is to say contacts positioned in a first row for the connection of cable cores of a cable side, particularly a subscriber side or system side, and contacts positioned in a second row for the connection of cable cores of a switching side, and wherein each wire guiding element has wire guiding ducts disposed in at least one row for guiding cable cores. According to the invention, the functional elements (11) are configured such that in each row of the same contact two respectively differently configured connecting elements are disposed alternately next to each other, which is to say, a and b contacts of a first connecting element, and a, b and s contacts of a second connecting element; the wire guiding elements (12, 13) are configured such that two wire guiding ducts having different widths are disposed next to each other in the, or in each, row, which is to say the first wire guiding channels extending across two contacts, and second wire guiding channels extending across three contacts.

Description

 Distribution device of a telecommunications system

The invention relates to a distribution device of a telecommunications system according to the preamble of claim 1. Furthermore, the invention relates to a functional element according to the preamble of claim 6 and a wire guide element according to the preamble of claim 7.

From the product catalog "Connection and Distribution Systems, Corning Cable Systems GmbH & Co. KG, page 17 - 22, Issue 1, Year 2000" is designed as a distribution block distributor device of a telecommunication system series 5000 known that several in a receptacle Each functional element has a plurality of contacts, in particular formed as IDC contacts, which are connected to the connection of the cable cores of a functional element Contacts positioned in a first row are used to connect cable cores on one side of the cable, in particular one side of the subscriber or the system side, and contacts positioned in a second row are used to connect cable cores to a jumpering side.

In addition to the functional elements find in the housing designed as a receptacle of the distribution device further wire guide elements receiving, each wire guide element has a plurality of wire guide channels for guiding cable cores. The wire guide channels have an arcuate contour and extend from a front side of the distributor device, on which the contacts of the functional elements are positioned, to a side of the same offset by 90 ° from the front side. Then, when data services are to be transmitted at a relatively low data transfer rate, the cable cores of the cable side and the shunting side have only so-called a-cable cores and b-cable cores to be connected to a-contacts and b-contacts of the functional elements. On the other hand, if data services are to be transmitted at relatively high data transmission rates, then shielding is required so that the routing side cable cores continue to comprise the s cable cable in addition to the a-cable cores and the b-core cores. The s-Kabeladem the Rangierseite be contacted with so-called s-contacts of the functional elements.

Then, when, in addition to the a-cable cores and b-core wires, s-cable cores of the shunting side are to be contacted at contacts of the functional elements of a distributor device, a clear reduction of the transmission paths that can be contacted at the distributor device results in distribution devices known from the prior art. If, for example, ten unshielded transmission paths can be contacted on a functional element of a distribution device, then a maximum of six, typically only four, shielded transmission paths can be connected to it depending on the application. Due to the reduction of the connectable transmission paths, the packing density decreases, so that if the number of shielded transmission paths to be connected remains the same compared to the number of unshielded transmission paths to be connected, a significantly larger number of functional elements and accordingly a much larger installation space is required.

On this basis, the present invention is based on the problem to provide a novel distribution device of a telecommunications system, a novel wire guide element for a distribution device and a novel functional element for a distribution device, with which for screened data services over the prior art, the packing density can be increased , This problem is solved by a distributor device having the features of claim 1.

According to the invention, the functional elements are constructed in such a way that, in each row of the functional elements, contacts of in each case two differently designed connection elements alternately line up, namely a and b contacts of a first connection element and a, b and s contacts of a second connection element; Furthermore, the wire guide elements are constructed such that in the or each row of the wire guide elements two different width wire guide channels alternately lined up, namely first, extending over two contacts wire guide channels and second, extending over three contacts wire guide channels.

The present invention provides a completely novel concept of a distribution device of a telecommunications system. Thus, the functional elements of the distribution device are constructed such that in each row of contacts of the functional elements contacts of differently shaped connection elements alternately lined up, namely on the one hand a- contacts and b-contacts of a first connection element and on the other hand a- contacts, b-contacts and s -Contacts of a second connection element. The wire guide elements of the distributor device are constructed in such a way that two wire guide channels of different widths alternately line up in the or each row of the wire guide elements, namely first wire guide channels extending over two contacts and second wire guide channels extending over three contacts. This makes it possible to z. B. a 10-pair functional element to which the cable cores are contacted by, for example, ten unshielded transmission paths to connect the cable wires of a total of eight shielded transmission paths. As a result, the packing density for shielded data services can be significantly increased compared to the prior art. According to an advantageous embodiment of the invention, the contacts of a first row, in particular an upper row, each functional element of the cable side, depending on the application of the subscriber side or the system side assigned, namely such that the a-cable cores and b-cable cores of the cable side can be connected to a- and b-contacts of the first row of the respective functional element, wherein the contacts of a second row, in particular a lower row, each functional element of the jumpering are assigned, namely such that the a-cable cores and b-cable cores of Rangierseite to a- and b-contacts of the second row of the respective functional element can be connected, and wherein the s-cable cores of the shunting side are contactable such that the s-cable core of each jumper cable, for which in the second row of the respective functional element s contact is available, can be connected to these s-contact positioned in the second row, and that d The s cable core of each jumper cable, for which only a and b contacts are available in the second row of the respective functional element, can be connected to an s contact of an adjacent functional element positioned in a first row, without crossover with others cable wires.

The functional element according to the invention is in independent claim 6 and the wire guide element according to the invention is defined in independent claim 7.

Preferred developments of the invention emerge from the subclaims and the following description. Embodiments will be explained in more detail with reference to the drawing. In the drawing shows:

Fig. 1 is a highly schematic representation of an inventive

Distributor device, namely a distributor block, in a view from the front;

Fig. 2 shows the distribution block of FIG. 1 together with cable wires in one

Representation analogous to FIG. 1; Fig. 3 is a functional element of the manifold block together with two

Wire guide elements in a front view; and FIG. 4 shows the arrangement of FIG. 1 in a perspective view.

The present invention relates to a distribution block designed as a distribution device of a telecommunications system, wherein such a distribution device comprises a plurality of functional elements and a plurality of wire guide elements.

Such distribution blocks are used in particular in main distributors of a switching center of a telecommunications system, wherein such distribution blocks cable cores a cable side, depending on the application of a subscriber side or a system side, and cable cores are connected to a jumper. To simplify the presentation of the invention, it is assumed below that the functional elements serve to connect cable cores of a subscriber side and shunting side. However, the invention is not limited to this application. Rather, the functional elements can also serve to connect cable cores of a system side and jumpering side.

1 shows a schematic representation of a distributor block 10 in the sense of the present invention, wherein the distributor block 10 of FIG. 1 comprises a total of three superimposed functional elements 11, and wherein above and below each functional element 11 in Fig. 1 each have a wire guide element 12 or 13 is positioned. In each case, a functional element 11 with the above and below the same arranged wire guide element 12, 13 is also referred to as a distributor strip 14. In FIG. 1, a total of three distributor strips 14 of a distributor block 10 are shown, each distributor strip 14 comprising a functional element 11 and wire guide elements 12, 13 arranged above and below the functional element 11. Each functional element 11 of the distributor block 10 has contacts of a plurality of connection elements formed as IDC contacts on a front side, wherein the contacts of each functional element 11 are grouped in two rows 15, 16 arranged one above the other. Thus, the contacts of a first row 15, in the illustrated embodiment of FIG. 1, the upper row, each functional element 11 associated with a subscriber page. The contacts of the second row 16, in the illustrated embodiment of the lower row, of each functional element 11, however, are assigned to a jumpering side. Each connection element is used to connect the cable cores of a transmission path, here subscriber.

For the purposes of the present invention, the functional elements 11 are constructed in such a way that in each row 15, 16 of contacts of the functional elements 11 contacts of in each case two differently formed connecting elements alternately line up, namely the contacts of an exclusively a-contacts and b Contact comprehensive first connection element and the contacts of a a-contacts, b-contacts and s-contacts comprehensive second connection element. In FIG. 1, this results in each row 15, 16 of each functional element 11 the sequence "a-contact, b-contact, s-contact, a-contact, b-contact", which is repeated in the functional element 11.

As already mentioned, a wire guide element 12, 13 is positioned above and below each functional element 11, wherein according to FIG. 1 each wire guide element 12, 13 comprises a row of wire guide channels DF, which serve to guide cable cores. In this case, according to the invention, the wire guide elements 12, 13 are constructed such that in the or each row of each wire guide element two different width wire guide channels alternately lined up, namely first, extending over two contacts wire guide channels and second, over three contacts erstre- ckende wire guide channels. Thus, in the wire guide elements 12, which are positioned above the respective functional element 11, the wire guide elements DF1, DF3, DF5 and DF7 extend over three contacts, whereas the wire guide channels DF2, DF4, DF6 and DF8 extend only over two contacts. In the area of the wire guide elements 13, which are arranged below the respective functional element 11, the wire guide channels DF2, DF4, DF6 and DF8 extend over three contacts and the wire guide channels DF1, DF3, DF5 and DF7 via two contacts.

Accordingly, two wire guide elements 12, 13 are positioned between two functional elements 11 arranged one above the other, such that below or above each wire guide channel extending over two contacts, a wire guide channel extending over three contacts is positioned. It can thus be seen from FIG. 1 that below the wire guide channels DF1, DF3, DF5 and DF7 of the wire guide element 13 extending over two contacts, there extends a wire guide channel DF1, DF3, DF5 and DF7 of the wire guide element 12 extending over three contacts. Above the wire guide channels DF2, DF4, DF6 and DF8 of the wire guide element 12, which extend over two contacts, a wire guide channel DF2, DF4, DF6 and DF8 of the wire guide element 13 extending over three contacts is positioned.

Fig. 2 illustrates the feasible with the distribution device according to the invention wiring concept for the cable wires of the subscriber side and the Rangierseite, wherein, as already mentioned, the contacts of the upper row 15 of each functional element 11 of the subscriber side and the contacts of the lower row 16 of the Rangierseite are assigned. Accordingly, the cable cores of the subscriber side are fed to the contacts of the upper row 15 of each functional element 11 via the wire guide channels of the wire guide elements 12. About the wire guide elements 13, the cable cores Rangierseite the contacts of the lower row 16 of each functional element 11 can be fed. Of the cable wires of the subscriber side 11 only a a cable terminal and b-cable cores are connected to the contacts of the upper row 15 of the respective functional element. This is visualized in FIG. 2 in that, starting from the wire guide channels of the wire guide elements 12, only two arrows point to the respective contacts, namely the a contacts and b contacts, of the row 15 of each functional element 11. A jacket screen or braided shield of the subscriber cable, which leads the a-cable wires and b-cable wires of the subscriber side, is effectively connected to a ground potential, such. B. with a ground terminal of a distribution frame to which the manifold block 10 is mounted.

In the case of contacting shielded double cores a-cable cores, b-cores and s-cores must be contacted with the contacts of the functional elements 11 of the shunting, this being done in accordance with FIG. 2 such that the a-cores and b-cores of the shunting side be connected to the a-contacts and b-contacts of the lower row 16 of the respective functional element 11. An s-cable core of a jumper cable, for which an s-contact is available in the lower row 16 of the respective functional element 11, is connected to this s-contact. If, however, no s-contact is available for an s-cable core of a jumper cable in the corresponding lower row 16 of the corresponding functional element 11, this s-wire core is connected to an s-contact of an adjacent functional element 11 positioned in an upper row 15 , and without crossover with other cable wires. This is visualized in Fig. 2 by the either obliquely upwards or obliquely downward arrows, the obliquely downwardly extending arrows visualize the s-cable cores of the jumper cables, for the in the lower row 16 of the corresponding functional element 11 no s-contact is available for connection, which are rather connectable to an s-contact of an adjacent functional element 11 in the upper row 15. LIST OF REFERENCE NUMBERS

Distribution block Function element Wire guide element Wire guide element Distributor strip Row Row

Claims

claims

1. Distribution device, namely distribution block, a telecommunications system, with a plurality of functional elements and with several Drahtfüh- approximately elements, each functional element at one front in two superimposed rows grouped contacts of several connection elements for the connection of cable cores, namely, positioned in a first row contacts for the connection of cable cores of a cable side, in particular a subscriber side or system side, and positioned in a second row contacts for the connection of cable cores a jumper, and wherein each wire guide element arranged in at least one row wire guide channels for guiding cable cores, characterized in that : the functional elements (11) are constructed in such a way that in each row of the same contacts of two differently shaped connection elements alternately line up, namely a and b contacts of a he th connection element and a, b and s contacts of a second connection element; the wire guide elements (12, 13) are constructed such that in the or each row of the same two different width wire guide channels alternately lined up, namely first, extending over two contacts wire guide channels and second, extending over three contacts wire guide channels.

2. Distribution device according to claim 1, characterized in that between each two superposed functional elements (11) two wire guide elements (12, 13) are positioned such that below or above each extending over two contacts wire guide channel extending over three contacts wire guide channel is positioned.

3. Distribution device according to claim 1 or 2, characterized in that in each row of a functional element (11) a sequence of contacts, namely the sequence "a-contact, b-contact, s-contact, a-contact, b-contact ", repeated.

4. Distributor device according to one or more of claims 1 to 3, characterized in that preferably designed as IDC contacts contacts a first row (15), in particular an upper row, each functional element (11) of the cable side, in particular the subscriber side or system side , such that the a-cable cores and b-cable cores of the cable side can be connected to contacts of the first row of the respective functional element, the contacts, preferably designed as IDC contacts, of a second row (16), in particular a lower row, each functional element (11) are assigned to the jumpering, namely such that the a- cable cores and b-cable cores of the jumpering be connected to contacts of the second row of the respective functional element, and wherein the s-cable cores of the jumpering side are contacted in such a way that the s - Cable core of each jumper cable, for which in the second row (16) of the respective Funkti On s on (11) s-contact is available, can be connected to this positioned in the second row s-contact, and that the s-cable core of each jumper cable, for which in the second row (16) of the respective functional element (11) exclusively A and B contacts are available to a in a first row (15) positioned s-contact of an adjacent functional element (11) can be connected.

5. Distributor device according to claim 4, characterized in that the s-contacts of the first row of each functional element for connecting s-cable cores of jumper cables whose a-cable cores and b-cable electrode are connected to contacts of an adjacent functional element, are available.

6. Functional element of a distribution device, with at one front in two superimposed rows grouped contacts of several connection elements for the connection of cable cores, namely with positioned in a first row contacts for the connection of cable cores a cable side, in particular a subscriber side or system side, and with in a second row of positioned contacts for the connection of cable cores a Rangierseite, characterized in that in each row (15, 16) of the same contacts of two differently shaped connection elements alternately lined up, namely a and b contacts of a first connection element and a , b and s contacts of a second terminal element.

7. wire guide element of a distribution device, arranged in at least one row wire guide channels for guiding cable wires, characterized in that in the or each row of the same two different width wire guide channels alternately lined up, namely first, extending over two contacts wire guide channels and second, itself three wire-extending wire guide channels.