DE20316769U1 - Housing for optical components such as for optical waveguide devices with a signal processing module releasably connected to a base plate - Google Patents

Abstract

The housing has an input port for an optical cable with several output ports. Arranged between the input port and the output ports inside the housing are a module for optical signal processing, a waveguide band in a predetermined bend radius e.g. 30 mm, and an optical plug connector. The waveguide band and optical plug connector are mounted as an interface on a base plate unit. One or more signal transformers for converting the signals, and an optical plug connector and the output ports are arranged in a cover (10) of the housing. The cover (10) is releasably connected to the base plate unit e.g. by a groove and spring fastener or a locking or snap fitting.

Description

The invention relates to a housing an input port for a fiber optic cable and with several parallel output ports, at least between the input port and the output ports an optical signal processing assembly, an optical fiber ribbon in a predefinable bending radius of preferably at least 30 mm and optical connectors are arranged inside the housing.

The importance of optical fibers growing in media technology to the extent in which a simultaneous transmission different data formats as audio, video or other control signal desirable is. Long transmission lines can also be used with optical fibers realize without significant losses. The fiber optic own across from usual Metal cables not only have a significantly lower weight, but the costs per transmitting channel can also be minimized. In addition, optical fibers have a high level of security against eavesdropping and are not like metal cables at risk from lightning. Leave with fiber optics low damping values, large transmission bandwidths with high signal density and largely frequency-independent line attenuation to be transferred Realize signals with minimal installation effort. The transfer rates through multiple carrier waves can be expanded almost indefinitely.

There is an optical fiber cable of several fibers, which in turn form a core, a jacket and have a coating. The light-guiding core is used for signal transmission. The coating ensures protection of the core against mechanical damage. The coat that made a different glass fiber than the core, is also light-guiding however, a lower refractive index, which makes it a total reflection and thus light beam guidance allows in essence. Usual diameter the core is 9 μm, of the jacket at 125 μm and the coating up to 1 mm.

The connection of two fiber optic ends is carried out using a splicer. There the ends are melted, for example under one Arc connected together. So that junction sufficient against mechanical loads such as tension, bending, corrosion and against environmental influences to be protected can, the (splice) connection with a protective cover provided (splice protection). For a split individual signal strands Detachable connectors also become different optical components used, which consist of two fiber optic connectors, the more common Way by means of a guide coupling be connected to each other. With signal transmission in such a connector must be guaranteed be that the ends of the two fibers are brought close together, to an undisturbed Signal transmission to guarantee. The size of the air gap between the two fiber end faces (Fiber ends) increased at least the damping.

To also process the optical signals, signal distribution and signal conversion (into electrical signals) To accomplish, additional components are required, which are not only ordered, but also arranged closed in a housing should be. That, for example, arriving in a residential basement Optical fiber cable becomes a housing with an input port (with a pull-down resistant hold-down device), whereby precautionary excess lengths as Line reserves are provided. Basically it is according to the state known in the art, corresponding optical waveguide tape guides in such a housing, splices, Plug receptacles, transceivers, splitters and all other necessary components to arrange.

With such an optical fiber cable however an abundance in the house of data available asked by not every resident because of the high total price desired this house become. Until it is activated after the contract has been signed even desirable that the house residents are not unjustified about existing ones or created output ports of the housing create data usage.

It is therefore the task of the present Invention, a housing of the type mentioned at the beginning to create a sufficient one mechanical protection for between the input port and the output port or the output ports horizontal assemblies, on the other hand creates the possibility of manipulation to be avoided from the outset by unauthorized persons.

This object is achieved by the housing according to claim 1. According to claim 1, the input ports, the optical waveguide band and at least one optical connector are arranged permanently mounted on a base plate unit, whereas at least one module for signal processing, one or more signal converters for converting the signals and at least one optical connector and the output ports are arranged in a housing cover are, which is detachably connected to the base plate unit, preferably via a tongue and groove connection and / or a snap or snap lock. This creates the possibility of installing the floor slab unit in a residential building as a precautionary measure, regardless of whether the incoming data is later used in whole or in part by appropriate signal processing and conversion. The base plate unit can be closed on the front by a simple cover plate. The resident or residents of the residential building in question who decide to use the data and are willing to assume the user fees for the provision of the data in accordance with the desired scope of use, receive the correspondingly equipped housing cover upon conclusion of the contract, which can then assemble the housing cover that is equipped with the actual use after loosening the cover plate. Before this, only the optical connectors have to be coupled to one another to ensure a signal transition.

Preferably, the bottom plate unit and the housing cover except for one the accessibility the optical connector necessary recess at least in Essentially closed. Through this measure, the individual components to the outside against mechanical damage secured. When using molded plastic parts or also Manipulation is also prevented to the extent that the covered optical assemblies not without destroying the these enveloping Plastic or tin walls are reachable.

According to a further embodiment of the invention are the connectors in the base plate unit and in the housing cover arranged such that the housing cover is guided until the connection status, the connectors into the for one Signal line required contact position can be brought. Preferably For this purpose, the mutually complementary connectors have a socket part and a plug part, which is conical for centering surfaces have. According to the prior art, fiber optic plug connections exist from two plugs that over a guide coupling be connected to each other. Such a connection requires precise work, around the two fibers, the end faces of which are brought together as close as possible to one another should be optimally aligned. Any radial or axial displacement impaired the transfer or increased the damping that occurs. Alone to save the guide coupling previously required can, is therefore according to the present invention the one plug part as Socket trained while the other plug part as a complementary part to the socket as a real one Plug is formed over existing conical guides is centered such that the optical fiber contained therein with the plug connection in a coaxial position to the optical fiber of the socket part comes. Through appropriate, in connection technology basically known attacks or Resting can also be guaranteed that there is always a reproducible narrow air gap when plugged in between the opposite Optical fiber end faces is set. With the measures described above, not only that Handling the connector, but also the assembly of the Base plate unit with the housing cover simplified. In a preferred embodiment, the housing cover is over corresponding guides in terms of the base plate unit and then the housing cover without further change in distance moved transversely to the base plate unit, with the desired Connection of the optical connector and the two housing parts will be produced. About attacks or a snap connection of the two housing parts ensures that the possible Cross slide movement is limited.

According to a further embodiment have the base plate unit and / or the housing cover replaceable plug-in transducers and / or a transceiver unit (Transceiver) on. This measure simplifies storage, because both with the base plate unit and with the housing cover Basic modules can be defined, which then according to the needs with the converter or the transceiver Delivery equipped become. The converter or converters are preferably via a comb connector insertable.

As in principle according to the state of the Known technology, the fiber reserve is via appropriate guides, Mounts or protection channels in the edge area of the housing, according to the invention in the edge area the bottom plate unit, essentially circularly wound around one correspondingly large Bending radius for ensure the fiber optic cables to be able to.

According to a further embodiment of the invention are splices, optical, on the inside of the base plate unit Plugs, splitters, taps and / or wavelength multipliers attached, preferably detachable via plug connections (as far as by an inexpensive Warehousing is advisable).

An embodiment of the invention is shown in the drawings. Show it:

1 a perspective view of a housing cover,

2 a perspective view of a base plate unit,

3 a perspective view of an optical connector as well

4 a perspective view of a converter module.

The housing according to the invention consists of the in 1 and 2 parts shown, namely a housing cover 10 and a bottom plate unit 11 that have projecting hooks 12 can be detachably connected to one another in connection with corresponding recesses and undercut areas in the housing cover. For the sake of clarity, components known per se, such as glass fibers, couplers and splices, as well as the detailed structure of the input port and the output ports suitable for plug connections with corresponding hold-down devices are omitted. In the simplest case, one comes Fiber from an inserted fiber optic cable. The glass fiber excess length is wound up in a substantially circular manner in the edge region of this unit via corresponding holders or protective channels in the base plate unit. A glass fiber splice connects the wound fiber with a pigtail, consisting of a short fiber with an attached optical connector. The optical connector 13 (please refer 3 ) is fixed in a holder on the floor or on the inside of the base plate unit. However, the one or more glass fibers can also be split onto several glass fibers via one or more optical splitters or taps and / or wavelength multipliers, which then open into several glass fiber connectors and are fastened to the base plate unit. Wavelength multiplexers can be used to distribute different wavelengths to different glass fibers, which are then routed to separate optical transceivers, transmitters and / or receivers via several plug connectors.

The bottom plate unit 11 is screwed onto a wall in a residential building, for example. As long as no subscriber connections are required or desired in order to use the telecommunications or data network provided, the base plate unit is covered by a simple housing plate on the front. This plate only serves to protect the passive optical components in the interior of the base plate unit against mechanical damage and / or contamination. The plate can be attached in the same manner as described below for the housing cover.

The housing cover has four slots on the invisible underside through which the hooks 12 are push-through. By shifting the housing cover 10 relative to the bottom plate unit 11 (in the present case to the left) leave the hooks 12 corresponding undercuts in the housing cover. Either the hook itself or other stops or locking means limit the possible displacement.

In the case shown, the converter module protrudes 14 that by means of an electrical connector 15 (please refer 4 ) is detachably fastened in the housing cover, the underside of the housing cover. This converter module has sockets 16 trained openings, the conical bevels as centering aids for the connector 17 of the optical connector 13 (please refer 3 ) exhibit. On the optical connector 13 are in 3 two fiber optic lines as an example 18 shown sketchy. The converter module and the optical connector are in the housing cover 10 or the base plate unit 11 arranged so that the connector 17 when inserting the hook 12 in corresponding recesses in the housing cover on the sockets 16 can be passed at a short distance. With the transverse displacement of the housing cover 10 (to the left in the picture) the connectors slide 17 into the sockets 16 , Is that through the hooks 12 Formed stop reached, is the plug connection between the optical connector 13 and the converter 14 brought about.

In this embodiment, the manual connection of two optical plugs with the aid of a guide sleeve is thus eliminated. In the context of the present invention, it is of course possible to manually connect plugs provided in each case on the ends of the optical fiber cable, both in the housing cover and in the base plate unit; in this case are preferably in the small front 20 The housing cover has two slots through which the links in

2 illustrated hook 12 can be passed and locked to hold the housing cover during the assembly of the optical connector. An optical connector is expediently firmly connected to the housing part (either in the housing cover or the base plate unit), whereas the complementary optical connector is designed as the end of a loosely guided cable.

So far in the sense of a cheaper Warehousing required or desired can be the passive optical Components fixed or detachable with the relevant housing part be connected, the latter variant having the advantage of a flexibly manageable modular structure.

The main idea of the present In any case, the invention consists in the fact that the base plate unit as a holder for the incoming fiber optic cable and for recording the fiber optic cable reserves as well as to accommodate basic modules serves, although for signal line and processing are essential, however due to the lack of signal conversion into electrical signals do not allow the use of the telecommunications or data network. To use this To create, the end user can meet his needs acquire the corresponding module in the manner described above is connected to the base plate unit. At the (not shown) output sockets are the desired ones and processed data signals available. Special experiences or specialist knowledge is not required to install the housing cover.

Claims (8)

Housing with an input port for an optical waveguide cable and with several parallel output ports, wherein at least one optical signal processing assembly, an optical waveguide tape with a predefinable bending radius of preferably at least 30 mm and optical plug connectors are arranged inside the housing between the input port and the output ports, characterized in that that on a floor plate ten unit ( 11 ) the input port, the optical waveguide band and at least one optical connector are arranged permanently mounted as an interface and that at least one module for signal processing one or more signal converters for converting the signals as well as at least one optical connector and the output ports in a housing cover ( 10 ) are arranged, which is detachably connected to the base plate unit, preferably via a tongue and groove connection and / or a snap or snap lock. Housing according to claim 1, characterized in that the base plate unit ( 11 ) and the housing cover ( 10 ) are at least essentially closed except for a recess necessary for the accessibility of the optical connectors. Housing according to claim 1 or 2, characterized in that the connectors in the base plate unit ( 11 ) and in the housing cover ( 10 ) are arranged such that when the housing cover is guided up to the connection state, the plug connectors ( 17 . 18 ) can simultaneously be brought into the contact position required for a signal line. Housing according to claim 3, characterized in that the mutually complementary connector a socket part ( 16 ) and a plug part ( 17 ) have conical surfaces for centering. Housing according to one of claims 1 to 4, characterized in that the base plate unit ( 11 ) and / or the housing cover ( 10 ) have exchangeable plug-in transducers and / or a transmitter-receiver unit (transceiver). casing according to claim 5, characterized in that the converter or converters are arranged on a plug-in card. casing according to one of the claims 1 to 6, characterized in that one or more glass fibers as a fiber reserve over Guides, Mounts or protection channels wound essentially circularly in the edge region of the base plate unit are. casing according to one of the claims 1 to 7, characterized in that on the inside of the base plate unit splices, optical connectors, splitters, taps and / or wavelength division multiplexers are attached, preferably via Plug connections releasably attached are.