BE1015398A6 - Connection system FOR UNDERGROUND cabling. - Google Patents

Abstract

Connection system for underfloor wiring of telecommunication and data networks, characterized in that in underfloor tanks (10) of the wiring cup (12) are used, that the cups (12) have an elongated cuboid Aufnauhmeraum that on the longitudinal walls (14) of the receiving space in a grid vertical guides (23, 26) are arranged, that in the guides (23,26) module carrier (28, 36) are used, the connection modules (32, 41) record.

Description

       

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  Description Connection system for underfloor cabling The invention relates to a connection system for underfloor cabling of data networks.



  In order to be able to lay cables in buildings variably, underfloor ducts are often used. The underfloor ducts lead to so-called underfloor tanks, which are inserted into the floor and receive the junction boxes for the wiring laid in the underfloor ducts.



  The underfloor tanks and the connection systems are coordinated, so that the connection systems of a make often are not compatible with the underfloor tanks of other make makes. In addition, the connection systems are tuned to specific telecommunications or data networks, so that a change or conversion of the wiring makes a complex replacement of the connection system necessary.

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  The invention is therefore an object of the invention to provide a connection system for underfloor cabling of data and telecommunications networks, which is suitable for different cabling systems and allows flexible adaptation and modification.



  This object is achieved according to the invention by a connection system having the features of claim 1.



  Advantageous embodiments of the invention are specified in the dependent claims.



  According to the invention, empty cans, which are designed as cups, are inserted into the underfloor tank. The cups have an elongated cuboid receiving space which is formed in the longitudinal direction with a grid of guides. In these guides can be used module carriers which receive the connection modules of the data or telecommunications network. The module carriers are interchangeably inserted into the guides of the cup so that module carriers can be used for different connection modules. The grid arrangement of the guides also makes possible a high packing density of the connection modules used.



  This results in a high degree of flexibility with regard to the number and design of the connection modules and a simple changeover. In particular, module carriers can be used for different connection modules, so that a hybrid mixture of different data and communication networks can also be connected via the same underfloor tank.

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  Preferably, the cups are also provided with locking devices, in which cover elements can be used. The locking devices for the cover elements are arranged in a grid corresponding to the guides for the module carrier. As a result, on the one hand cover elements for the connection modules can be used and on the other hand cover elements can be used which cover free spaces that are not required for the insertion of module carriers.



  The receiving space is mirror-symmetrical with respect to a median plane extending transversely to its longitudinal extension. Likewise, the guides are each mirror-symmetrical to their transverse to the longitudinal extent of the receiving space extending median plane. As a result, the module carriers and the cover elements can be inserted into the cups by 180 positions rotated relative to each other. This simplifies and simplifies installation and assembly. In addition, for example, in a round underfloor tank two identically shaped cups are used, which are each rotated by 180 against each other.



  The cups have at the end sides of the receiving space in each case a large-scale wall opening through which the cable to be connected can be performed.



  Preferably, the opening surface of the wall openings is chosen so large that even pre-assembled cable with already mounted connection modules through this

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 Wall breakthroughs can be introduced into the receiving space.



  Since the module carriers are inserted from above into the receiving space of the cup and latched, a particularly simple installation of the connection system is possible.



  Likewise, the latching of the module carrier can be released from above, so that in case of need the module carrier can be replaced.



  The cups have at their upper edge projecting edge webs, which have predetermined breaking lines, so that these edge webs can be broken away to different dimensions. As a result, an adaptation of the cup to different manufacturer makes the underfloor tanks in a simple manner possible.



  In the following the invention will be explained in more detail with reference to an embodiment shown in the drawing. Show it
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<tb> Figure <SEP> 11 <SEP> <SEP> View <SEP> of the <SEP> Cup <SEP> with
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  FIG. 1 shows an underfloor tank 10 with a circular outer contour. The inner walls of the underfloor tank 10 are offset inwards, so that there is a square interior. On the inner walls of the underfloor tank 10 grid slots 11 are arranged, in which the inventive cup are locked in a manner described later.



  The cups 12 are plastic injection molded parts and have the shape shown in Figure 2. The cups 12 have the shape of an elongated rectangular parallelepiped, with one of these this elongated rectangular parallelepiped corresponding receiving space. The receiving space is bounded by a bottom 13, two vertical parallel longitudinal walls 14 and two vertical parallel end walls 15. The top of the receiving space is open. At the upper edge of the cup 12, an edge web 16 is formed in each case. The edge webs 16 extend horizontally in the plane of the open top of the cup 12. The edge webs 16 are used to attach the cup 12 in the underfloor tank 10. The design of the edge webs 16 allows an adaptation of the attachment

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 different makes of underfloor tank 10.

   For this purpose, the edge webs 16 predetermined breaking lines 17, which allow easy breaking away certain parts of the edge web 16 in order to adapt to the respective existing underfloor tank 10. In Figure 2, the edge webs 16 are complete, with an opening 18 in the outer region of the edge web 16 for attachment in the underfloor tank 10 is used. In Figure 11, an outer portion of the edge web 16 is broken away, so that a protruding tab 19 of the edge web 16 can be used for attachment in the underfloor tank 10 of another make. In Figure 13, the edge web 16 is further broken away, so that a detent spring 20 on the outer edge of the edge web 16 is exposed, which can be used to engage in the underfloor tank 10. In this form, the cup 12 z.

   B. are used in the underfloor tank 10 shown in Figure 1, wherein the locking springs 20 engage in the grid slots 11 of the underfloor tank 10.



  The overall shape of the cup 12 and its inner receiving space are mirror-symmetrical to a median plane transverse to the longitudinal extent of the cup 12. This makes it possible to use two cups 12 of the same shape rotated 180 against each other in the underfloor tank 10, as shown in Figure 1, with the cups 12 complement each other to fill the underfloor tank 10. In the case of an elongate shape of the underfloor tank, if necessary, more than two cups 12 can also be inserted parallel to one another in the underfloor tank.

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  In the end walls 15 of the cup each large-wall openings 21 are provided which extend over the entire width of the end wall 15 and from the bottom 13, starting at least over half the height of the end wall 15. In the bottom 13 predetermined breaking lines 22 are provided which allow the breaking out of a large-area access in the bottom 13. About the wall openings 21 and possibly the accesses in the bottom 13, the laid in the underfloor ducts cables are fed into the cup 12. The wall openings 21 and the floor openings are so großflachig that possibly also prefabricated cable with mounted connection modules can be guided through the wall openings 21 in the cup 12.



  As can be seen most clearly in Figure 2, the two longitudinal walls 14 of the cup 12 in a uniform grid spacing arranged guides.



  Seven first guides each consist of a pair of vertical guide rails 23, which are formed on the inside of the longitudinal wall 14. Centered between the guide rails 23, a latching ramp 24 is formed at the upper edge of the longitudinal wall 14, which rises from the upper edge of the longitudinal wall 14, starting downwards. The bottom 13 has in each case the latching ramps 24 associated slide openings 25, so that a non-undercuts producing the latching ramps 24 by injection molding is possible.

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  Each offset by half a grid distance from the first guides second guides are provided between these first guides, each consisting of a closely spaced pair of parallel vertical guide rails 26. In the illustrated embodiment, eight second guides are provided. In the region of the second guide rails 26, the longitudinal wall 14 is interrupted in each case at its upper edge by a latching opening 27.



  The first and the second guides are each arranged on the two long walls 14 mirror-symmetrical to each other. The first and the second guides are also each mirror-symmetrical to their vertical center plane.



  The first guides serve to insert first module carriers 28, one of which is shown in FIGS. 3 to 6. The first module carrier 28 is preferably a zinc die-cast part. The module carrier 28 corresponds in its width to the width of the receiving space of the cup 12. On its two sides, the module carrier 28 in each case has a vertical guide rail 29. The width of the guide rails 29 corresponds to the distance of the first guide rails 23, so that the module carrier can be inserted with their guide rails 29 each in opposite first guide rails 23 on the two long walls 14 from above. In the region of their upper end, the guide rails 29 each have a latching nose 30.

   When the first module carrier 28 with its guide rails 29

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 are inserted into the first guide rails 23, the locking lugs 30 each run over the locking ramps 24 and engage behind this. In this way, the first module carrier 28 can be inserted and latched in the first guides. Since the longitudinal walls 14 due to their length and their plastic material have a certain elasticity, the longitudinal walls 14 can be bulged laterally if necessary, so that the locking lugs 30 can be lifted again on the ramp ramps 24 to the module support 28 when needed again from the cup 12 to take out.



  The first module carrier 28 each have three juxtaposed module receptacles 31, in which connection modules 32 can be used, which are formed in the illustrated embodiment as RJ 45 connection modules. The module receptacles 31 have at the rear end of their bottom a projecting hook 33 which engages in a corresponding recess of the connection module 32. At the upper edge of the module receptacles 31 latching projections 34 and at the front edge of their bottom stops 35 are formed. The attached to the hooks 33 connection modules 32 can be locked in this way behind the stops 35 and the locking projections 34.



  The second guides with the guide rails 26 serve to insert second module carriers 36, one of which is shown in FIG. The second module carrier has vertical perpendicular to the longitudinal walls 14 extending guide rails 37 which from above between the

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 second guide rails 26 are inserted. At the upper end of the outer edge of the guide rails 37 a latching bulge 38 is arranged. If the second module carrier 36 is inserted with its guide rails 37 into the second guide strips 26, then the latching bulges 38 engage in each case in the latching openings 27, so that the second module carrier 36 is held locked. The second module carrier 36 has an upper inclined carrier plate 39. In bores 40 of the support plate 39 connection modules 41 are used, the z.

   B. are designed as BNC sockets. In the illustrated embodiment, the module carrier 36 accommodates four connection modules 41.



  In the locking openings 27 cover further elements can be used and locked. The cover elements bridge the width of the receiving space of the cup 12 and each have on its two sides a downwardly projecting detent spring 42 which engages in the detent opening 27 to lock the cover on the cup 12.



  A covering element 43 serves to cover the module carriers 28 and 36, respectively. This covering element 43 is bulged upwards, so that it covers the connection modules 32 and 41, respectively. The module carriers 28 and 36 are designed such that their connection modules 32 and 41 are held with their plugging direction at 45 to the level of the cup 12. Accordingly, the cover 43 has an inclined at 45 against the plane of the cup 12 surface in which the

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 Plug openings of the connection modules 32 and 41 are. Trained as RJ 45 sockets terminal modules 32 are closed by cover flaps 44. In the second module carrier, the support plate 39 closes the inclined surface of the cover 43.

   The cover member 43 has on both sides in each case two detent springs 42, which engage in two successive detent openings 27. If the cover 43 is used to cover a first module carrier 28, then these locking springs 42 each engage in the Rastoffnungen 27, which are arranged in front of and behind the first Fuhrungsschienen 23. If the cover 43 is used to cover a second module carrier 36, so engages a detent spring 42 in the detent opening 27 of the second Fuhrungsleisten 26 which receive the module carrier 36, while the second detent spring engages in the following detent opening 27.



  Further cover members 45 are provided, which have the shape of a flat rectangular plate which lies in the upper level of the cup 12 and serves to cover unoccupied places of the cup 12. The cover 45 engages with a respective detent spring 42 at its two narrow sides in a detent opening 27. The inserted into the detent opening 27 cover 45 covers the open top of the receiving space of the cup 12 of the detent opening 27 to the middle of the two subsequent first Fuhrungen with the Guide rails 23.

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  The versatility of the connection system results from the various representations of the drawing. In FIG. 1, for example, both cups 12 are completely equipped with first module carriers 28 and corresponding connection modules 32. In the left cup 12, the Abdeckelemte 43 are placed, while these are removed at the right cup 12 for explanation.



  In FIGS. 11 and 12, a first module carrier 28 and two second module carriers 36 are used. In FIG. 11, the cover element 43 is placed on the first module support 28 for clarification purposes, while the second module support 36 is missing therefrom.



  FIG. 12 shows this assembly, wherein a cover element 43 is also placed on the second module carriers 36.



  FIG. 9 shows an example in which only two first module carriers 28 with associated cover elements 43 are inserted. At both ends of the receiving space of the cup 12 is thus still a place free, which is closed by a cover 45.



  FIG. 13 shows an example in which only a first module carrier 28 with cover element 43 is inserted in the cup 12, while the unused remaining region of the cup 12 is closed by cover elements 45.



  It is obvious that other arrangements of the module carriers 28 and 36 as well as the cover elements 43 and 45 are possible.

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  It will also be appreciated that other forms of module carriers may be used which carry other terminal modules. Such module carriers with other connection modules can also be varied in their number and combined with each other or with the illustrated module carriers 28 and 36 in any desired manner.


    

Claims (18)

Protection claims 1. Connection system for underfloor wiring of Telecommunications and data networks, characterized in that in Unterflurtanks (10) of the wiring cup (12) are used, that the cups (12) have an elongated cuboid receiving space that on the longitudinal walls (14) of the Receiving space in a grid vertical guides (23,26) are arranged, that in the guides (23,26) Modultrager (28,36) are used, the Record connection modules (32,41). 2. The connection system according to claim 1, wherein a Cup (12) in relation to a perpendicular to her Longitudinal extending extending median plane are mirror-symmetrical. 3. The connection system according to claim 1 or 2, characterized in that the Guided tours (23,26) in relation to their Longitudinal extension of the cups (12) vertical Center plane are formed mirror-symmetrically. 4. Connection system according to one of the preceding Claims, d a n c e c o m e s s that the Guides vertical parallel Guide rails (23 or 26) have, and that the  <Desc / Clms Page 15>   Module carrier (28 or 36) with guide rails (29 or 37) in the guide rails (23 or 26) from the open top of the cup (12) are inserted. 5. Connection system according to claim 4, characterized in that the guides and the module carrier (28 or 36) Locking devices (24,30 and 27,38) have to Locking the module carrier (28 or 36) used in the guides (23 or 26). 6. Connection system according to one of the preceding Claims, characterized in that at least two different guides are provided, each having the same Grid spacing, the grid of the various guides, however, are offset from each other. 7. The connection system according to claim 1, wherein the Module carrier (28,36) have module receptacles (31,40), in which connection modules (32,41) in the Be included, that the plugging direction of the Connection modules (32,41) at an angle of 45 to the plane of the cup (12) extends. 8. Connection system according to one of the preceding Claims,  <Desc / Clms Page 16>  characterized in that the cups (12) on the end walls (15) of their Aufnahmeraums großflachige wall openings (21) for Insert the wiring. 9. Connection system according to one of the preceding Claims, characterized in that the cups (12) at its upper edge at least one in the upper plane of the cup (12) outwardly projecting edge web (16) for fixing the Cup (12) in the underfloor tank (10). 10. Connection system according to claim 9, characterized in that the edge webs (16) predetermined breaking lines (17), so that they adapt to different Underfloor tanks (10) are wegbrechbar. 11. Connection system according to one of the preceding Claims, characterized in that on the longitudinal walls (15) of the receiving space of the cup (12) Locking devices (27) for cover elements (43,45) are provided. 12. Connection system according to claim 11, characterized in that the latching devices (27) in the same Grid spacing as the guides (23,26) arranged  <Desc / Clms Page 17>  are. 13. Connection system according to claim 11 or 12, characterized in that the latching devices are latching openings (27) into which the cover elements (43,45) engage with latching springs (42). 14. Connection system according to claim 13, characterized in that the guide rails (37) of the module carrier (36) with Snap locking bulges (38) into the latching openings (27). 15. Connection system according to one of claims 11 to 14, characterized in that Covering elements (43) are provided which each cover a module carrier (28 or 36) with the connection modules (32, 41) inserted in them in such a way that only the connection modules (32, 41) are accessible. 16. The connection system according to claim 15, characterized in that the Cover elements (43) from the upper level of the cup (12) are dome-shaped and at the two Longitudinal walls (14) each in two successive in the grid Engage latching devices (27).  <Desc / Clms Page 18>   17. Connection system according to one of claims 11 to 14, characterized in that Covering elements (54) are formed as flat plates, which lie in the upper level of the cup (12) and cover not occupied by module carrier (28,36) areas of the receiving space. 18. The connection system according to claim 17, characterized in that the Dimension of the cover (45) in the direction of Longitudinal extent of the cup (12) corresponds to a grid spacing and that the locking means (27,42) are each in the middle of the two narrow sides of the cover (45).