RELATED APPLICATIONS

[0001] This application claims the benefit of U.S. Provisional Application Serial No. 61/407,704 filed on October 28, 2010, the entire contents of which are hereby incorporated by reference.

[0002] This application also claims the benefit of U.S. Provisional Application Serial No. 61/325,082 filed on April 16, 2010, the entire contents of which are hereby incorporated by reference.

BACKGROUND

[0003] The present invention relates to a sealing and strain relief device for data cables, in particular for optical waveguide cables.

[0004] When constructing optical waveguide cable networks, for example, optical waveguide distribution devices are required in order to ensure structured wiring. One demand placed on such optical waveguide distribution devices is a maximum possible number of optical waveguide distribution devices fitted with a high packing density and, at the same time, a low level of mechanical stress on the optical waveguides. Similar demands are placed on distribution devices for handling other data conductors.

[0005] DE 20 2010 009 385 discloses the basic design of an optical waveguide distribution device. For example, this prior art discloses an optical waveguide distribution device with a housing and with assemblies accommodated in the housing for connecting and/or storing optical waveguides. The housing of the optical waveguide distribution device known from this prior art comprises a housing lower part and a cover-like housing upper part, with it being possible for the optical waveguide distribution device to be fixed on a bearing structure, for example on a housing wall, via the housing lower part. Optical waveguide cables need to be inserted into the housing of the optical waveguide distribution device from the outside, with it being necessary here for firstly a seal and secondly strain relief to be ensured.

[0006] Until now, simple and reliable sealing and strain relief of data cables in the region of distribution devices has presented difficulties. SUMMARY

[0007] Against this background, the present invention is based on the problem of providing a novel sealing and strain relief device for data cables, in particular for optical waveguide cables.

[0008] This problem is solved by a sealing and strain relief device having the features of Claim 1.

[0009] The sealing and strain relief device according to the invention has at least one sealing element, which is arranged in the manner of a sandwich between outer, plate-like bearing elements made from a relatively hard or rigid material and which is made from a relatively soft or elastic material, wherein slots are introduced both into the outer bearing elements and into the or each central sealing element in such a way that the slots run respectively next to one another and respectively one behind the other, in relation to the sandwich-like arrangement thereof, within the respective bearing element and within the respective sealing element, and wherein strain relief elements are associated with at least one plate-like bearing element in such a way that each data cable, which is sealed and is guided in the region of slots arranged one behind the other of the sandwich-like arrangement, can be restrained using a strain relief element.

[0010] The sealing and strain relief device according to the invention enables simple and reliable sealing and strain relief of data cables in the region of distribution devices.

[0011] Preferably, each strain relief element has a plate- like basic body which, when the strain relief element has been fastened on the respective plate-like bearing element, runs perpendicular to the plate-like bearing element.

[0012] Preferably, the plate-like basic body of each strain relief element has a raillike guide element on a first side and/or at a first end, it being possible for the strain relief element to be fixed on a plate-like bearing element via said guide element. The plate-like basic body of each strain relief element has receptacles for data cables on a second side and/or at a second end. [0013] The plate-like basic body of each strain relief element, in a state in which said plate-like basic body is inserted into the plate-like bearing element, is latched with the strain relief element, namely preferably via a barb-like anchoring element of the plate-like bearing element, which barb-like anchoring element latches into a cutout in the plate-like basic body of each strain relief element.

BRIEF DESCRIPTION OF THE DRAWINGS

[0014] Preferred developments of the invention are given in the dependent claims and the description below. Exemplary embodiments of the invention will be explained in more detail with reference to the drawing, in which:

[0015] Fig. 1 shows a sealing and strain relief device according to the invention for data cables, in particular for optical waveguide cables, in a perspective view in a first state;

[0016] Fig. 2 shows the sealing and strain relief device according to the invention for data cables shown in Fig. 1 in a second state;

[0017] Fig. 3 shows the sealing and strain relief device according to the invention for data cables shown in Fig. 1 in a third state;

[0018] Fig. 4 shows a detail of the sealing and strain relief device according to the invention;

[0019] Fig. 5 shows an exploded illustration of the sealing and strain relief device according to the invention; and

[0020] Fig. 6 shows an exploded illustration, rotated through 180° with respect to Fig. 5, of the sealing and strain relief device according to the invention, but without the detail shown in Fig. 4.

DETAILED DESCRIPTION

[0021] The invention relates to a sealing and strain relief device for data cables for sealing and providing strain relief for data cables to be inserted into a distribution device. The data cables to be handled are preferably optical waveguide cables in which optical waveguides are guided as data conductors. The distribution device in which the sealing and strain relief device according to the invention is used is preferably an optical waveguide distribution device in the form of a wall-mounted distribution board. Although the invention is preferably used for optical waveguide distribution devices, it can also be used for other distribution devices for other data conductors, such as copper conductors, for example. [0022] The basic design of a distribution device is conventional to a person skilled in the relevant art and does not require any more detailed explanation. In this regard, reference is made to DE 20 2010 009 385, by way of example. The text which follows describes exclusively the sealing and strain relief device according to the invention which can be used in such a distribution device.

[0023] Figs 1 to 6 show different views and details of a sealing and strain relief device 10 according to the invention for data cables, in particular optical waveguide cables.

[0024] A sealing and strain relief device 10 according to the invention has outer, plate-like bearing elements 11 and 12 and a sealing element 13, which is arranged in the form of a sandwich between the outer, plate-like bearing elements 11 and 12. In the illustrations shown in Figs 1 to 3, the plate-like bearing element 12 is not shown, since it is hidden by the sealing element 13.

[0025] The plate-like bearing elements 11, 12 are formed from a relatively hard or rigid material. The sealing element 13 is formed from a relatively soft or elastic material, on the other hand.

[0026] Slots 14, 15 and 16 are introduced both into the outer bearing elements 11 and 12 and into the central sealing element 13, respectively. Thus, a plurality of slots 14 running parallel to one another or next to one another are introduced into the plate-like bearing element 11. A plurality of slots 16 running parallel to one another and next to one another are introduced into the plate-like bearing element 12. A plurality of slots 15 running parallel to one another or next to one another are introduced into the sealing element 13.

[0027] In relation to the sandwich-like arrangement comprising the plate-like bearing elements 11, 12 and the sealing element 13, the slots 14, 15 and 16 are introduced in congruent fashion into said elements or one behind the other. Thus, in each case one slot 14 of the bearing element 11, one slot 15 of the sealing element 13 and one slot 16 of the bearing element 12 are arranged in congruent fashion or one behind the other in the fitted state of the sealing and strain relief device 10, with the result that a data cable, in particular optical waveguide cable, to be sealed and restrained using the sealing and strain relief device extends at the same time through three slots, namely through two slots 14, 16 in the bearing elements 11, 12 and through one slot 15 in the sealing element 13.

[0028] Strain relief elements 17 are associated with at least one plate-like bearing element 11, 12. In the preferred exemplary embodiment, strain relief elements 17 are associated exclusively with the plate-like bearing element 11, wherein, in Figures 1 to 3 and 5, only a single strain relief element 17 is shown, which is shown on its own in Figure 4.

[0029] Data cables, namely optical waveguide cables, which are guided and sealed in the region of the slots 14, 15 and 16, which are arranged congruent ly or one behind the other, of the bearing elements 11, 12 and the sealing element 13 can be restrained by means of such a strain relief element 17 so as to provide strain relief.

[0030] A plurality of data cables or optical waveguide cables can be guided and sealed in the region of slots 14, 15 and 16 which are each arranged congruently or one behind the other, it also being possible for a plurality of data cables or optical waveguide cables to be restrained using the strain relief element 17.

[0031] The strain relief elements 17 can be fixed releasably on a plate-like bearing element, namely on the plate-like bearing element 11 in the exemplary embodiment shown. Details of this will be given below.

[0032] Each strain relief element 17 has a plate-like basic body 18, via which the respective strain relief element 17 can be fixed on the bearing element 11, wherein when the respective strain relief element 17 is fixed on the plate-like bearing element 11, the plate-like basic body 18 of the respective strain relief element 17 runs perpendicular to the plate-like bearing element 11 (see in particular Figure 3).

[0033] The plate- like basic body 18 of each strain relief element 17 has a rail- like guide element 21 on a first side 19 and at a first end 20, with it being possible for the strain relief element 17 to be fixed on the plate- like bearing element 11 via said guide element 21, wherein the plate-like basic body 18 of each strain relief element 17 can be inserted into a corresponding groove-like guide element 22 of the platelike bearing element 11 via this rail- like guide element 21. [0034] As can best be seen from Figs 1 to 4, the rail- like guide element 21 of the basic body 18 of the strain relief element 17 does not extend over the entire height thereof, but instead only extends in the region of an upper section of the plate-like basic body 18, with a cutout 23 being introduced into a lower section of the platelike basic body 18, in the region of which the rail- like guide element 21 does not extend, via which cutout 23 the respective strain relief element 17 can be latched on the plate-like bearing element 11.

[0035] When a strain relief element 17 is latched with the plate- like bearing element 11 of the sealing and strain relief device 10, a barb-like anchoring element 24 of the bearing element 11 latches into the cutout 23 in the basic body 18 of the strain relief element 17 in the lower end position (see Fig. 3) of the strain relief element 17 in the bearing element 11. As a result, the respective strain relief element 17 is fixed or latched releasably on the plate-like bearing element 11.

[0036] In each case one groove-like guide element 22 and in each case one barblike anchoring element 24 are formed on the plate-like bearing element 11 adjacent to each slot 14 of the bearing element 11, which slot serves to guide at least one data cable, in order to be able to position in each case one strain relief element 17 in the region of each slot 14 and therefore in the region of all slots 14, 15 and 16 which are arranged congruently or one behind the other.

[0037] The respective strain relief element 17 comprises receptacles 27 for data cables on a second side 25 or at a second end 26 of the plate-like basic body 18, with it then being possible for the data cables, which are sealed and guided in slots 14, 15 and 16 arranged congruently or one behind the other, to be restrained with strain relief using said receptacles 27. Fig. 4 shows that, in the exemplary embodiment shown, eight such receptacles 27 are positioned one above the other on the second side 25 and at the second end 26 of the plate-like basic body 18 and can then be used to restrain eight data cables.

[0038] As has already been mentioned, the sealing and strain relief device 10 can preferably be used in a distribution device in the form of a wall-mounted distribution board for optical waveguides, it being possible for the sealing and strain relief device 10 to be fixed in such a wall-mounted distribution board via fixing means 28, which are formed on the plate-like bearing element 12 (see Fig. [0039] As can best be seen from Figs 1 to 3, the central sealing element 13 has greater dimensions than the bearing elements 11, 12, namely such that the central sealing element 13 protrudes on all four sides with respect to the outer bearing plates 11. As a result, sealing of the entire sealing and strain relief device with respect to a housing of a distribution device in which the sealing and strain relief device 10 is used is then ensured, in addition to sealing of the data cables.