The invention relates to a connecting box for glass fiber cables, comprising a housing which is formed from at least two parts and has a lower part and a cover, with at least one holder for a coupling for holding glass fiber plugs being arranged within the housing.
DE 10 2008 027 381 A1 discloses a connecting box for glass fiber cables, comprising a housing which is formed from at least two parts and has a lower part and a cover, with the cover being arranged pivotably on the lower part, at least one holder for a splice, at least one feed for a glass fiber cable and a holder for a coupling, with the side surfaces of the cover being longer than the end surfaces of the cover, and with a pivoting bearing of the cover on an end surface of the cover. The holder for the coupling is arranged with respect to an end surface of the lower part and of the cover such that the inserted coupling ends virtually with the end surface, such that a glass fiber plug can be inserted into and withdrawn from one face of the coupling, from outside the connecting box, even when the cover is closed.
Applications are possible where, for various reasons, it should not be possible to pull an inserted glass fiber plug out directly, for example for safety reasons because of the laser light emerging, or to prevent manipulations.
The invention is based on the technical problem of providing a connecting box which can be used flexibly and by means of which a physical form can easily be produced in which an outer glass fiber plug, which is plugged into a coupling, is secured or unsecured, as required.
The technical problem is solved by the subject matter having the features of claim 1. Further advantageous refinements of the invention are specified in the dependent claims.
To this end, the connecting box for glass fiber cables comprises a housing which is formed from at least two parts and has a lower part and a cover, with at least one holder for a coupling for holding glass fiber plugs being arranged within the housing, wherein the holder is in the form of a double frame which comprises two first vertical struts and two second vertical struts, with the second struts being arranged closely to a front face of the cover (in the closed state) and of the lower part, and with the coupling optionally being latchable to the first or the second struts. This means that, depending on the latching of the coupling, the face of the coupling for insertion of the outer glass fiber plug ends with the front face, or is recessed into the interior of the housing. In the latter case, the folded-down cover then secures the inserted glass fiber plug from being pulled out. In this case, the holder for couplings may be formed integrally or in one part with the lower part, or else may be connected as a separate component to the lower part. The holder is preferably in the form of a double holder for two couplings.
In a further preferred embodiment, the lower part is formed with a latching holder, into which an active or passive electrical or optical component can optionally be inserted. In this case, the holder for the couplings is preferably connected integrally to the lower part. By way of example, a further holder for couplings for glass fiber plugs or electrical circuits such as RJ sockets and/or core connectors can then be latched into the latching holder. By way of example, a Cat-TV module or a WDM module can be inserted as active components. The connecting box can therefore be highly flexibly matched to different applications.
Particularly when using active optical or electrical components, LEDs or other optical signalling means are used, and these are typically installed on a front face. Because of the arrangement within the connecting box, these would therefore emit via the end surface, although this would lead to difficulty in reading them, particularly when the connecting box is mounted on a wall.
At least one optical deflection element is therefore preferably arranged in the connecting box, the optical output of which optical deflection element is aligned with an upper face of the cover, with the cover being transparent in this area. The signaling can in this way be perceived on the cover. By way of example, the deflection element may be in the form of a glass fiber, reflective coating on the housing or optical element which is composed, for example, of PMMA. In this case, by way of example, the cover transparency can be achieved by a transparent window which is adhesively bonded, for example, into the cover. Alternatively, the material thickness of the cover can be reduced in this area, as a result of which the light then emerges to an adequate extent through this thinned area. In this case, a weak point can be provided in this area on the cover, and is knocked out by the inserted deflection element. In this case, the deflection element can be arranged in the lower part or in the cover.
In a further embodiment, a pivotable support having at least one holder for splices is arranged between the lower part and the cover, with the support and the holder being formed integrally.
The support preferably has a latching holder in which one further holder for splices or a coupling for glass fiber plugs can optionally be latched, thus further increasing the flexibility in use.
In a further embodiment, a pivoting bearing which has an open contour is arranged on the lower part. In this case, the pivoting bearing may be composed of one or more parts. One possible embodiment is slotted cylinders in which case, for example, the opening angle is between 30° and 180°. The support is preferably formed with an opposing bearing which can rotate about the pivoting bearing of the lower part, that is to say the pivoting bearing cannot move on the lower part.
Drop cables, cores or fibers are therefore preferably guided in the pivoting bearing.
The invention will be explained in more detail in the following text with reference to one preferred exemplary embodiment. In the figures:
a shows a perspective illustration with a Cat-TV module,
b shows a perspective illustration with an electrical plug connector,
c shows a perspective illustration with a further holder for couplings,
a shows a perspective illustration of the support with a further holder for splices,
b shows a perspective illustration of the support with a coupling for glass fiber plugs,
The connecting box 1 illustrated in
The holder 20 for couplings 30 will now be explained in more detail with reference to
A coupling 30 can be inserted into the holder 20 from the front face V or from the rear face R. The illustration in
a now illustrates how this is done in conjunction with the lower part 3 and cover 2. In this case, the left-hand coupling 30 is inserted into the holder 20 from the front face V, and the right-hand coupling 30 is inserted into the holder 20 from the rear face R. In this case, the front part of the left-hand coupling 30 ends flush with the front end surface 40 of the lower part 3 while, in contrast, the front part of the right-hand coupling 30 is located in the holder 20. When glass fiber plugs are now inserted into each of the front parts of the couplings 30 and the cover 2 is closed, then the glass fiber plug and the left-hand coupling 30 can still be pulled, since it is still located largely outside the connecting box 1. In contrast, the glass fiber plug in the right-hand coupling 30 cannot be pulled, since the glass fiber plug is located completely in the connecting box 1, and is thus secured by the cover 2 against being pulled out.
a also shows a Cat-TV module 41 with LEDs 42 being latched in the latching holder 17 in the lower part 3. In this case, a panel 43, which is matched to the Cat-TV module 41, is arranged on the front end surface 40, and a cable which originates from the Cat-TV module 41 is passed through it.
b shows an alternative fitting of the latching holder 17 of the lower part 3, in which an RJ plug connector 45 followed by insulation-displacement terminal contact strips 46 is latched into the latching holder 17. In this case, the insulation-displacement terminal contacts of the contact strips 46 are electrically connected to spring contacts in the RJ plug connector 45. A matched panel 47 is also arranged on the front end surface 40 of the lower part 3 for the RJ plug connector 45.
c shows a further alternative fitting of the latching holder 17 in the lower part 3, in which a holder 20 for couplings 30 is being latched in the latching holder 17. In this case, as in the case of the adjacent holder, the left-hand coupling 30 has been inserted from the front face V, and the right-hand coupling 30 from the rear face R.
The latching holder 17 therefore allows the connecting box 1 to be flexibly and easily matched to widely different applications.
a and 10b show how the support 12 can be flexibly matched by appropriate fitting of the latching holder 14. In this case, a support 48 with two holders 19 for four splices is latched in
The optical deflection element 11 will now be explained in more detail with reference to
Number | Date | Country | Kind |
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10 2010 010 428.0 | Mar 2010 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP2011/000059 | 1/10/2011 | WO | 00 | 12/3/2012 |