DE1159036B - Patch panel, especially for electronic correctors in telephone systems - Google Patents

Description

Patch panel. especially for electronic correctors in telephone systems The invention relates to a patch panel for the optional connection of conductors incoming lines with conductors, outgoing lines at jumper points, which are from cores two intersecting multiple wirings are formed in telecommunications systems, especially for electronic correctors in telephone systems.

The invention aims to design the patch panel and his To arrange parts to each other in such a way that on each shunting point one as low as possible Area portion of the patch panel is omitted.

In telecommunications, in particular telephone systems, the optional connection from ladders of incoming lines with ladders of outgoing lines via patch panels performed.

It is known that the patch panel consists of two lines in each direction to form associated multiple wirings, each of which is made parallel to one another in one level, each of which is assigned to a conductor and which cores the wires of both multiple wirings lying in two parallel planes run in intersecting directions. In these known devices forms each wire several jumper points, at which the incoming and outgoing direction assigned wires via jumper elements (wire bridges, electrical components) can be electrically connected. Because when using electrical components as marshalling elements, the lateral distance between the marshalling points in the plane Multiple wirings result depending on the lateral space requirements of the components with relatively widely spaced veins. This leads to a accordingly large patch panel space per patch point. For patch panels where the Multiple switched groups (shunting points) assigned to incoming ladders must be formed from several shunting points, is the even distribution of the shunting points disadvantageous via the patch panel. There are two different shunting points associated components are often closer to each other than two to the same marshalling point corresponding components, which makes routing difficult and confusing.

These disadvantages for multi-core wiring with many jumper points also have already proposed patch panels, which, on the type of circuit boards formed, with multiple wiring from mechanically laid (written) Veins are provided. These have a perforated insulating plate on one side Adjacent cores of a multiple wiring looped into the holes and attached. These loops are on the other side of the plate near the one laid on the latter side of the plate, also in one Cores of the other multiple wiring that are arranged level next to one another and their cores the former cross.

A space-saving arrangement of multiplied solder points has the well-known matrix switch with printed circuit. With this are the multiplied Solder points assigned to the incoming and outgoing conductors and by electrical Bridged components. The wires of the two multiple wirings for the solder points are multi-wirings that do not cross each other and consist of parallel wiring summarized printed conductor tracks and applied to the same side of the plate. The printed conductors are routed so that those formed by them are over Components to be connected to each other soldering points always the same for the attachment the components have a suitable distance. In order to achieve this, the known Execution of auxiliary solder points or conductor tracks also printed on. But there too the conductor tracks are guided parallel to one another in a plane, claimed the multiple wiring with a very large number of wires a correspondingly large space on the maneuvering area, which is due to the arrangement the auxiliary solder points or the additional auxiliary conductor tracks is enlarged.

Especially with patch panels for free routing for electronic Correctors in which shunting points consisting of several pairs of shunting points are added are multiplied, the disadvantages of the known designs lead to an overall maneuvering device, which reaches an extraordinary size.

To avoid this, according to the invention, the wires are at least one of the two multiple wirings of the patch panel to one or more summarized with looped ribbon cables, which with their broadsides be inclined or perpendicular to the level of the patch panel. The use of ribbon cables for multiple wiring allows the wires of one or both multiple wirings in tightly spaced ribbon cables lying one on top of the other without additional holding means so that the wires of the multiple wiring are only a small fraction the maneuvering area to accommodate them. The ribbon cable shape has as well the advantage that the loops to be formed by the individual veins on both edges of the ribbon cable can be looped out. so that the exiting at one edge Loops as shunting points and the loops formed on the other edge as soldering points to further multiply or increase these jumper points can serve. The jumper points come to one and the multiple wiring to lie on the other side of the patch panel, with which the arrangement of the patch points on the patch panel largely independent of the arrangement of the said ribbon cables will.

According to a development of the invention, the incoming and outgoing line in each case several flat cables running parallel to one another formed multiple cables assigned, which with their loops per line several Form groups consisting of several marshalling points, each paired with a marshalling point are assigned, and which multiple cables are also used by one or more Extension cables formed by ribbon cables are electrically connected to one another in parallel are. Through this guidance of the multiplying and multiplying cables, which in this extent only by the grouping of their veins in perpendicular to the surface ribbon cables standing in the patch panel are possible, a large number is obtained of jumper points, the respective soldering points of which are close together, clearly are delimited from the soldering points of other jumper points, with those of the incoming Line assigned jumper points to the jumper points assigned to the outgoing line are directly opposite each other for each shunting point. This gives you a clear and easy to perform marshalling.

In one embodiment of the invention, in accordance with the systems circuit boards used with slide-in technology use the patch panel as a plug-in or retractable circuit board of a known type formed in that A perforated insulating material plate serves as a carrier for the patch panel, on which on one side the ribbon cable-shaped multiple cables by means of the on their side from the patch panel level remote edges molded loops with the ribbon cable-shaped crossing them Extension cables are soldered and their to the on the insulating plate overlying edges formed, the shunting points forming loops through the Grab holes on the other side of the insulating material plate, and that of the incoming and the multiple cables assigned to the outgoing line on the insulating plate arranged connections end which along one edge of the insulating plate lie in series. As a result, the entire marshalling facility of a telecommunications system are formed by several such patch panel units, which exactly like the known retractable circuit boards inserted into contact strips of a frame and can be connected.

Appropriately, some or all of the shunting points unoccupied solder lugs are assigned to each group. By taking up little space Soldering lugs make it easier to connect several components to one jumper point.

According to another embodiment of the invention, the jumper points by means of jumper wires optionally connected to contacts of connector strips, which the inclusion of known, plate-shaped, equipped with electrical components Plug-in units are used. This ensures that defective component groups can be replaced can be made at the relevant shunting point without soldering that for different types of routing only one or a few types of plug-in units Must be kept in stock, depending on whether you have the same with the maximum wants to equip occurring component types in the maximum number occurring or the plug-in unit stock in a few types and number of component combinations divided. Furthermore, a certain combination of component types can be used at a marshalling point against one from other component types without soldering and without individual removal the components are replaced.

When using connector strips at the jumper point, a Set up a gesture-shaped patch panel that is made up of clear wiring and easy expansion option. According to a further development of the invention this is done by having several connector strips lying next to one another from one side are attached to a frame in such a way that their connection points on the other Side of the frame protrude and according to a desired Rangiereng with the shunting points are connected, which of the loops of the wires serving as multiple cables Ribbon cables are formed, which are horizontal on the attachment side of the connector strips are attached to the frame and with their loops also on the other side of the frame protrude and in that the multiple cables are used as augmentation cables Ribbon cables are wired to either side of one of several such frames Rack frame are arranged in the vertical direction.

The invention is illustrated below with reference to in the drawings Embodiments described. It means Fig.1 a simplified principle scheme the multiple wiring of the patch panel according to the invention, Fig. 2 shows a schematic representation of the division and wire routing of a slide-in unit formed patch panel, FIG. 3 shows a cross section through a according to FIG Patch panel, Fig. 4 is a schematic representation of the division and wire routing a patch panel designed as a frame, FIG. 5 shows a cross section through a according to FIG. 4 formed patch panel.

In Fig. 1 a schematic diagram for the multiple wiring of a patch panel is shown, with which an incoming line E with a number of conductors with an outgoing line A, which also consists of a plurality of conductors, is to be routed in such a way that nine outlined by dashed lines Marshalling points 1 to 9 each incoming conductor can be connected to each outgoing conductor individually or in combination via the wires of the multiple field. For this purpose, jumper points 10 and 11 are arranged at each of the jumper points 1 to 9 so that they each form a group 12 and 13 , of which groups 12 are assigned to the incoming line E and the groups 13 to the outgoing line A. The jumper points 10 in the jumper points 1 to 3, 4 to 6 and 7 to 9 are connected multiple times by wires of a multiple cable 14 or 16 or 18 and the jumper points 11 by the wires of a multiple cable 15 or 17 or 19 . The wires of the multiple cables 114, 16 and 18 are connected via wires of an extension cable 20 and those of the multiple cables 115, 17 and 19 are connected by wires of an extension cable 21. At each of the jumper points 1 to 9 , any number of jumper points 10 can now be optionally connected to one another with any number of jumper points 11 via jumper wires 22 or via one or more electrical components 23.

This wiring principle is used in the exemplary embodiment shown schematically in FIGS. 2 and 3 for a patch panel, which is intended for routing a centrally arranged corrector with electronic components for direction selection in a country remote dialing system. It is assumed that each direction is identified by a maximum of six decadic digits and that twelve directions can be routed on the displayed patch panel. According to FIG. 1, only nine of the routing points assigned to them are provided with reference symbols. The incoming line E accordingly has six by ten conductors. The outgoing line A also consists of sixty conductors, which may run over several of the shown patch panels. Depending on the routing of the conductors of the outgoing line A, the desired direction is marked. This is done in that, as indicated at jumper points 1 and 2, certain connections 24 of the incoming line E are connected to certain connections 29 of the outgoing line A via the wires of the multiple wiring with the aid of a combination of electrical components 23 . The directions to be connected to any combination of a maximum of six digits or digits can be changed through the jumper field and / or moved to another or to several jumper locations and / or marked with a different combination of digits. For this purpose, the connections 24 each decade corresponding to a digit are combined into a ten-core ribbon cable 26 , and six of the ribbon cables 26 each assigned to a decade form one of the multiple cables 14, 16 or 18. Six of the ten-core ribbon cables 25 each form one of the Mehrfachkabe115 or 17 or 19, which are assigned to the outgoing line A. The multiple cables 114 to 19 run parallel to one another and with their loops form the jumper points 10 and 11, which are located together in groups 12 and 13, respectively. The ribbon cables 26 of the multiple cables 116 and 18 are connected to the ribbon cables 26 of the multiple cables 14 and the ribbon cables 25 of the multiple cables 15 and 17 electrically connected in parallel to the ribbon cable 25 of the multiple cable 19 via the augmentation cable 20 and 21, respectively. Each of the augmentation cables 20 and 21 consists of ten ribbon cables 28 and 27 each assigned to a digit, each of which consists of six cores each assigned to a decade. In the case of the multiple wiring 15, 17, 19 and 21 assigned to the outgoing line, the division into individual ribbon cables has no circuit significance, since the conductors of the outgoing line A leading to the connections 29 are equivalent in terms of circuitry in the present example. The multiplication cables 20 and 21 run perpendicular to the multiple cables 14 to 19.

The ribbon cables 25 to 28 are arranged on an insulating plate 30, and their connections 24 and 29 are along an edge 31 of this insulating plate 30 in series, so that the patch panel in the manner of a known circuit board in not shown slide-in contact strips of a frame for connecting the Patch panel can be pushed into the system.

From Fig. 3 it can be seen that the ribbon cables 26 of the multiple cables 14, 16 and 18 like the ribbon cables 25 of the Mehrfachkabe115, 17 and 19 are arranged on one side of the insulating plate 30 with their broad sides perpendicular to the plane of the insulating plate 30 . At their edges facing the insulating material plate 30, the loops forming the jumper points 10 and 11 pass through openings on the other side of the insulating material plate 30. Each of the wires of the ribbon cables 26 and 25 also has a loop at each connection point for the augmentation cable 20 and 21, respectively 32, which is arranged on the edge of the ribbon cables 26 and 25 facing away from the insulating plate 30 . Between the loops 32, the ribbon cable are 26 and 25 intersecting ribbon cables 28 and 27 of the cable propagation loaded vertically 20 and 21 respectively and soldered in accordance with the loops 32nd

From Fig. 2 and 3 it can be seen that with such a patch panel, a plurality of routing points 1 to 9 are obtained, the routing points 10 and 11 of which are close together and form groups 12 and 13 directly opposite one another at each routing point 1 to 9. The multiple wirings 14 to 21 take up little space and leave the remote jumper points 10 and 11 completely free. Groups 12 and 13 of jumper points 10 and 11 are assigned unassigned solder lugs 33 designed as riveted solder pins, to which, if necessary, several components 23 can be soldered on more easily than would be possible directly at loop-shaped jumper points 10 and 11 . In FIGS. 4 and 5, another embodiment of the patch panel suitable for a gesture structure is shown. As is indicated symbolically in FIG. 4 on the left-hand side, a stand frame 34, known per se, is provided which accommodates a plurality of frames 35. Each of the frames 35 is equipped with a plurality of connector strips 36 of a known type lying parallel to one another, which, here in threes, each form a jumper point 1 or 4 or 7. Each of the plug strips 36 has, for. B. twenty contacts 37, which are optionally connected to the jumper points 10 of the group 12 on the one hand and the jumper points 11 of the group 13 on the other hand via the jumper wires 22. The groups 12 and 13 are formed by the loops of the ten-core ribbon cables 26 and 25 running horizontally on the frame 35 outside the space of the jumper points 1, 3 and 4 , six of which each represent a multiple cable 38 and 39, respectively. The broad sides of the ribbon cables 25 and 26 are perpendicular to the plane of the frame and protrude with their loops forming the jumper points 11 and 10 on the other side of the frame 35, on which connection points 40 of the contacts 37 of the connector strips 36 are also located. With this arrangement, the routing can be carried out on the rear of the built-in frame 35. In the case of several, here two, frames 35 built into the frame 34, all multiple cables 38 which, for. B. functionally correspond to the multiple cables 14 and 16 in FIG. 2, and all multiple cables 39 which, for. B. correspond to the multiple cables 15 and 17 in Fig. 2, multiplied by augmentation cables 42 and 41 attached to the frame 34, respectively. The multiplication cables 41 and 42 are formed by ten six-core ribbon cables 27 and 28 , respectively, which, with their broad sides perpendicular to the surface of the frame 34, extend vertically on the frame on both sides of the frame. The extension cables 41 and 42 each lead to a sixty-part rack distributor, not shown. The connector strips 36 are used to hold a known plate-shaped components fitted with the electric components 23 plug-in units 43. Each of the components 23 is individually or combination as connected to non-shown contact elements on the plug-in unit 43, wherein said contact elements with the Shunting 10 or 11 arranged contacts 37 of the connector strips 36 cooperate. In this exemplary embodiment of the patch panel, too, little space is required for the multiple wiring 38, 39, 41 and 42. The plug-in units 43 are plugged into the closely spaced connector strips 36 from one side of the frame, while the routing is carried out on the rear. The use of plug-in units 43 allows damaged plug-in units 43 to be replaced without soldering or, with the same routing, to replace several components 23 with components of a different type or a different combination in a single plug-in process. The plug-in units 43 can, divided into a few types, be prefabricated in advance.

Claims (6)

CLAIMS: 1. patch panel for selective connection of conductors incoming outgoing to conductors lines at shunting that two of wires intersecting multiple wirings are formed, in telecommunications systems, in particular for electronic corrector in telephone systems, characterized in that the wires of at least one of the two multiple wirings of the Patch panel are combined into one or more ribbon cables (25, 26) provided with loops, the broad sides of which are inclined or perpendicular to the level of the patch panel. 2. Patch panel according to claim 1, characterized in that the incoming and outgoing lines (E and A) each have a plurality of multiple cables (14, 16, 18 or 38 or 15, 17) formed from parallel ribbon cables (26 or 25) , 19 or 39) are assigned, which with their loops per line (E and A) form several groups (12 or 13) consisting of several jumper points (10 or 11) , which are assigned in pairs to a jumper point (1 to 9) and which multiple cables are electrically connected in parallel to one another via extension cables (20 or 21 or 42 or 41) also formed by one or more ribbon cables (28 or 27). 3. Patch panel according to claim 2, characterized in that the patch panel is designed as a plug-in or retractable circuit board of a known type in that a perforated insulating material plate (30) serves as a carrier for the patch panel, on one side of which the ribbon cable-shaped multiple cables (14 to 19) (20 or 21) by means of the integrally formed on their side facing away from the Rangierfeldebene edge loops (32) with which they intersecting ribbon cable-like propagation cables soldered and integrally formed with its at resting on the insulating plate (30) edges, the shunting pts (10 or 11) forming loops through the holes on the other side of the insulating plate (30), and that the multiple cables (14, 16, 18 or 15, 17, 19) end at connections (24 or 29) arranged on the insulating material plate (30) and lying in series along an edge (31) of the insulating material plate (30). 4. patch panel according to claim 3, characterized characterized in that at some or all of the shunting points (1 to 9) of each group (12, 13) unoccupied solder lugs (33) are assigned. 5. patch panel according to claim 2, characterized in that the jumper points (10 or 11) by means of jumper wires (22) are optionally connected to contacts (37) of connector strips (36), which are the receptacle known, plate-shaped, with electrical components (23) equipped plug-in units (43) are used. 6. patch panel according to claim 5, characterized in that a plurality of connector strips (36) from one side side by side on a frame (35) are attached in such a way that their connection points (40) protrude on the other side of the frame (35) and corresponding to a The desired routing can be connected to the routing points (10 and 11), which are formed by the loops of the wires of the ribbon cables (26 and 25) serving as multiple cables (38, 39) , which are positioned horizontally on the frame on the attachment side of the connector strips (36) (35) are attached and with their loops also protrude to the other side of the frame (35), and that the multiple cables (38, 39) are wired with ribbon cables (28 and 27) serving as augmentation cables ( 42 and 41), which are arranged in the vertical direction on both sides of a rack frame (34) accommodating a plurality of such frames (35).