DE3405047C2 - - Google Patents

Description

The invention relates to a radiation-proof and moisture-proof cable sleeve for receiving reinforcements core modules for broadband communication, consisting of egg nem outer sleeve pipe and front sealing bodies and from an assembly unit arranged inside for mounting the amplifier modules.

Due to the German utility model DE 81 17 774 U1 is a such telecommunication cable sleeve for the tight introduction of Known cables. There the assembly frame is open Take the amplifier modules in the interior of a damp tightness-proof cable sleeve arranged, the assemblies frame a wiring unit for connecting the amplifier has core modules. With such an arrangement necessary that the amplifier modules are particularly troublesome for themselves are radiation-proof, with the wiring shielded by special precautions must become.

For the present invention, the task now arises an interference-proof and moisture-proof cable to create, in spite of the precautions for the Shielding easy accessibility and easy assembly give is. The task is now according to the Erfin with an interference-proof and moisture-proof tight cable sleeve of the type mentioned above solved that the modules for the amplifier modules inner  half of a housing to shield against interference suitable material are arranged that the housing of two hingedly connected with each other Half-shells and front-mounted panes with Cable entry openings exist, the washers Be have fastening devices over which the housing Flanges the front sealing body of the damp tightness cable sleeve, consisting in known per se Way from the sealing bodies and the sleeve pipe, arrange kert is.

With the recently used broadband communication systems becomes necessary that the amplifier modules must be protected against moisture. Because now usually several amplifier modules in one unit it is obvious that they are in a kind of socket housing as they are already known. These sleeves are probably the moisture seal, are but generally not sufficiently radiation-proof. By present invention is now ensured that he required shielding can be maintained. It will here according to the invention, a housing for shielding material suitable for interference radiation used in Is placed inside the moisture-proof cable sleeve. This interference-proof housing encompasses all within of the cable sleeve housed amplifier modules with their Wiring units. This housing consists of two halves shells that are connected by a joint, so that by opening the half-shells at any time the access is given to the amplifier modules. Besides, is the assembly of the amplifier modules through the easy access ease. The front sides of the case will be completed by discs of the same material that in an advantageous manner on the sealing bodies of the sleeves are firmly attached, so that there is also an assembler  relief.

The invention will now be described with reference to four figures explained.

Fig. 1 shows a partial section of the moisture-proof cable sleeve with the interference-proof housing in the interior.

Fig. 2 illustrates the end face of the interference-proof housing according to the invention.

Fig. 3 shows the first half-shell and

Fig. 4 shows the second associated half-shell of the interference-proof housing.

Fig. 1 shows in longitudinal section only the left half of the cable sleeve according to the invention, since the right side is essentially identical. Thereafter, the cable sleeve consists of the two - here only one visible - end-mounted cylindrical sealing bodies 1 and the longitudinally divided sleeve pipe 3 . The sealing body 1 be sits a circumferential sealing groove 1 ', in which a sealing agent is introduced. By opening and closing the sleeve pipe 3 , the interior is sealed against the ingress of moisture. Inside the sleeve space be the sealing body 1 flanges 1 '', on which connec tion rails 2 are attached. Through this connection rails 2 , the two sealing bodies are fixed to each other in their La ge. On the flanges 1 '' of the sealing body 1 , the angle 9 of the interference-free housing are now attached, so that the two disks 8 of the housing 5 are fixed by them. These two Sche ben 8 each form the end face of the interference-resistant housing 5th The interference-free housing 5 is now formed by the two half-shells 6 and 7 (see in the other figures), which are clamped ben 8 on the front discs. The assembly frame 4 with the individual amplifier modules is expediently se attached to the connecting rails 2 , the openings by opening 11 of the end disks 8 to the flanges 1 '' of the sealing body 1 and fixed with fasteners 12 . The housing 5 is made of corrosion-resistant material, for example aluminum, which is suitable for shielding against interference. The diameter of the cylindrical housing 5 is kept only slightly smaller than the inside diameter of the sleeve pipe 3 in order to be able to support it additionally when subjected to external forces. The electrical connection of the amplifier modules with incoming and outgoing cables takes place via special lead-through couplers 13 with the aid of the connecting cables 14 common in HF technology. The feedthrough coupler 13 who in a known manner through the sealing body 1 pressure and moisture-proof inserted into the sleeve and ben 8 are attached to the front side via the screw connections 15 to the Schei. Occurring cable tensile forces are thus absorbed by the two disks 8 and in the vorgenann th way in the attached to the sealing bodies 1 Ver connecting rails 2 forwarded.

In Fig. 2 is indicated in Fig. 1 with II-II cross section through the cable sleeve according to the invention. Here, in particular, the front disk 8 becomes clear, which is attached to the angle 9 and provided with the corresponding cable entry openings 25 . The angle 9 is fastened together with the respective connecting rail 2 on the flange 1 '' of the sealing body 1 . In the lower part the joint 16 can be seen, with which the two half-shells 6 and 7 of the interference-proof housing 5 are hingedly connected to one another. On the upper part, the closure elements 18 , 19 can be seen, with the help of which the two half-shells 6 and 7 are clamped ben 8 on the front-side discs. Furthermore, the sleeve pipe 3 of the cable sleeve can be seen, which is longitudinally slotted and is sealed with a rail-like closure device 24 along the side in a manner known per se. Additional feedthroughs are also possible, which are necessary, for example, to check the amplifier modules. The connection for a measuring line is then made via a separate feed-through coupler 23 , which is screwed on the end face to the disk 8 and is guided to the outside via the prepared valve opening of the sealing body 1 . The feed-through coupler is closed on the outside by a pressure-tight screw cap.

FIGS. 3 and 4 now show in perspective view the above mentioned formation of the cylindrical Ge häuses 5, which is formed from the two half-shells 6 and 7 and the end-face plates 8 not shown here formed. The two half-shells 6 and 7 are hingedly connected to one another by means of hinges 16-17 which are attached in pairs on the inside, here in a pluggable version. With the help of the fastenings attached to the half shells, these two half shells 6 and 7 are joined together to form a closed cylinder. The Stecknar nier consists of a socket part 16 and a plug part 17 , which are firmly connected to the half-shells 6 and 7 . Both plug-in hinges are attached near the cylinder ends. A screw closure for closing the cylinder consists of the threaded carrier 18 attached to the outside of the half-shell 6 and the carrier 19 fastened to the half-shell 7 , which carries, for example, a captive fastening screw 20 . The Ge thread carrier 18 and the carrier 19 are angled inwards to stay within the cylinder contour. In the closed state of the cylinder, the upper longitudinal edges of the two half-shells 6 and 7 , as well as the vertically angled legs of the two carriers 18 and 19 are firmly against each other after screwing in the fastening screw 20 . At the same time, the cylinder formed in this way presses with its inside onto the two front disks 8 and thus forms the housing 5 which is safe from interference radiation. Sufficiently good contacting is ensured by pressing together. To facilitate assembly 6 brackets 21 are attached to the inside of the half-shell, with which the half-shell 6 is hung on the connecting rail 2 performed . In the prescribed mounting position, the cable level is horizontal and the two connecting rails 2 are vertical. The half-shell 7 can only be coupled by the insertion of the plug parts 17 into the sockets 16 and closed with the screw closure in the aforementioned manner to form a cylinder. On the two longitudinal edges of the half-shell 7 , a guide aids can furthermore be attached, which are formed, for example, from sheet metal strips 22 arranged in pairs. The assembly of the two half-shells is thereby facilitated and, in addition, the rigidity of the cylindrical housing 5 which is joined together is increased .

With this construction according to the invention, very quick access to the amplifier modules is possible, since only the socket pipe has to be removed and then the half-shell 7 of the housing 5 has to be opened.

Claims (7)

1. Radiation-proof and moisture-proof cable sleeve for receiving amplifier modules for broadband communication, consisting of an outer sleeve pipe and end-face sealing bodies and an assembly unit for receiving the amplifier modules, characterized in that the assembly unit for the amplifier modules ( 4 ) within a housing ( 5 ) made of material suitable for shielding against interference radiation, that the housing ( 5 ) consists of two half shells ( 6 , 7 ) which are hingedly connected to one another via joints ( 16-17 ) and washers ( 8 ) on the end face with cable insertion openings ( 25 ), wherein the disks fastening devices ( 9 ) through which the housing ( 5 ) on flanges ( 1 '') of the end sealing body ( 1 ) of the moisture-proof cable sleeve, consisting in a manner known per se from the sealing bodies ( 1 ) and the sleeve pipe ( 3 ) is anchored. 2. Radiation-proof and moisture-proof cable sleeve according to claim 1, characterized in that the joint ( 16-17 ) is designed as a joint share consisting of a socket part ( 16 ) and a connector part ( 17 ). 3. Radiation-proof and moisture-proof cable sleeve according to one of the preceding claims, characterized in that at least one half-shell ( 6 ) has a bracket ( 21 ) for fixing the position. 4. Radiation-proof and moisture-proof cable sleeve according to one of the preceding claims, characterized in that the half-shells ( 6 , 7 ) along the longitudinal edges have guide aids ( 22 ). 5. Radiation-proof and moisture-proof cable sleeve according to one of the preceding claims, characterized in that the half shells ( 6 , 7 ) to be brought into engagement with closure elements ( 18 , 19 , 20 ). 6. Radiation-proof and moisture-proof cable sleeve according to one of the preceding claims, characterized in that the half-shells ( 6 , 7 ) have clamping elements for the end-face disc ben ( 8 ). 7. Radiation-proof and moisture-proof cable sleeve according to claim 5 and 6, characterized in that the closure elements ( 18 , 19 , 20 ) are also designed as clamping elements for the front discs ( 8 ).