The invention relates to a plug-in connector module with a shielding against interfering radiation. The plug-in connector module is used in a module mounting device of a plug-in connector casing.
Such a plug-in connector module is required so that electrical signals that are susceptible to interference can be transmitted by means of an industrial connector casing in which modules having different power potentials are disposed.
A connector from the prior art, DE 36 15 356 A1, provides a cable connector for connecting a cable to a computer. This cable connector consists of two shell halves that are connected to one another so as to be immune to electrical interference and are coated with thermoplastic material so as to be electrically insulated.
While cable connectors of this type are perfectly adequate for the domain of office communication, they are not sufficiently stable or sufficiently protected against environmental influences for use in the industrial domain.
The instant invention is therefore based on the object of developing a plug-in connector module of the initially stated type, in an industry-standard connector casing with a module mounting device provided therein, such that shielding against interfering radiation is provided for electrical signals which are susceptible to interference and which are routed by means of shielded cables.
This object is achieved by an electrically conductive shell-type casing, with a connector insert, that is retained in a retaining body composed of insulating material. The retaining body, with the shell-type casing and the connector insert, can be locked in place in the module mounting device, and there is provided on the shell-type casing a clip by means of which a signal line, leading to the connector insert, can be fastened. The shielding braid of the signal line contacts the shell-type casing.
In automation technology, which is increasingly directed towards a decentralized connection technology, there is also an increasing trend to transmit electrically sensitive signals, e.g., from sensors. Such devices, however, must be of a plug-in design in order to assure a rapid, trouble-free replacement of a defective component.
The plug-in connections, however, must be adapted to the industrial domain and robustly equipped.
The advantages achieved by the invention consist particularly in that such a plug-in connector module, provided for so-called D-sub connector inserts, can be inserted in an already known, proven and robust module mounting device in a respective plug-in connector casing. At the same time, due to the type of construction of this plug-in connector module, it is possible to combine without difficulty, and without mutual interference, both a plurality of shielded plug-in connector modules, having mutually independent earth potentials, and plug-in connector modules which transmit a power supply, pneumatic supply or suchlike. The plug-in connector module consists of a retaining body in which is locked an electrically conductive shell-type casing with a D-sub connector insert.
The shielding braid of a shielded cable is connected to the shell-type casing by means of a screw-clip.
A plurality of plug-in connector modules can thus be used independently of one another within a module mounting device, even with different earth potentials on the shieldings.
An exemplary embodiment of the invention, explained more fully in the following, is represented in the drawing, wherein:
Fashioned in the corner regions are locking hooks 16, each directed outwards, which are relieved from the side walls by means of a rectangular slot 17. Formed on, below and centrally between the locking hooks, are outwardly directed formed-on elements 18 which can be inserted in corresponding openings 44 in a module mounting device 40, shown in FIG. 3.
A shell-type casing 20 can be inserted and locked into the module body 10.
The rectangular shell-type casing comprises a mounting surface 22, elongated relative to the other three side surfaces, for the screw-mounting of a fastening clip 28 by means of which the shielding of a signal cable is contacted to the electrically conductive shell-type casing. In addition, provided on the mating side of casing 20 are threaded holes 26 so that the connector insert 30, which in this case has the form of a D-sub connector, can be fastened to casing 20 using screws 32. Likewise, a fastening with locking means or rivets can be provided.
In this figure, the casing 50 has been partially cut away in order to show the module mounting device 40 with the connector modules 1, 3 inserted therein.
Number | Date | Country | Kind |
---|---|---|---|
202 14 132 | Sep 2002 | DE | national |
Number | Name | Date | Kind |
---|---|---|---|
6004162 | Harting et al. | Dec 1999 | A |
6045390 | Metz et al. | Apr 2000 | A |
Number | Date | Country |
---|---|---|
692 436 | Dec 1997 | CH |
296 21 436 | Dec 1996 | DE |
197 07 120 | Feb 1997 | DE |
197 12 630 | Mar 1997 | DE |
2 315 615 | Feb 1998 | GB |
Number | Date | Country | |
---|---|---|---|
20040053534 A1 | Mar 2004 | US |