Based on the invention, the thing is achieved whereby a body-formed mounting half is supplied on which posts are arranged on opposite sides, and whereby in the underside space of the mounting part there's offered a cable passage going through in the route of the interior area of the housing; a groove with rim-facet support shoulders for an insertable, elastic seal is supplied within the mounting half; the seal is supplied with an opening corresponding to the shape of the cross-part of the flat cable; with interposition of the flat cable, the tensile stress relief clamps may be bolted along with the posts of the mounting half. Firstly, the mounting part 1 is bolted to the connector housing 6, whereby an enclosing groove 24 could be offered on the bottom aspect of the mounting part, in which groove a sealing ring 19 is inserted for sealing the inside house of the housing towards foreign supplies and humidity.

FIG. 12 is a view of the utterly installed flat cable entry for a connector housing corresponding to FIGS. 2 and three the connector 10 could also be configured in the straight-line configuration, where the tail facet 14 and the header side 15 are on opposite sides of the housing 11. As proven in FIG. 4 the connector 10 could also be configured in the suitable-angle configuration, where the tail side 14 is perpendicular to the header side 15. Extending almost alongside the complete size of the tail side 14 is a longitudinal slot 16. The width and depth of the slot 16 are sized to receive the slide member 13 and a flexible flat cable as mentioned further below. FIGS.7A-7C show the development of the contact half fifty one of the connector 22a, wherein FIG. 7A exhibits the contact part 51 in a front view, FIG. 7B reveals the contact half fifty one in a plan view, and FIG. 7C reveals the contact part fifty one in a aspect view. It should be famous that the cables forty one of FIG. 5A are used for carrying the indicators and designated in FIG. 5A as "S." FIG. 5B, however, reveals the flat cable 24b within the state that the cables forty one are bonded to the fusible tape 43 at the underside apex.

The flat cables 24a and 24b are assembled with each other at the foregoing fusible tape forty three as indicated in FIGS.5A-5C, wherein FIG. 5A exhibits the flat cable 24a in the state that the cables forty one are bonded to the fusible tape forty three at the highest apex. Further characteristics and advantageous embodiments of the invention are indicated in the claims. The thing of the invention is therefore to provide a cable entry for flat cable, which is extensively tailored to the dimensions of flat cable (width/thickness), which affords sufficient protection towards intrusion of international supplies, and which, with respect to tensile stress, gives safety for the cable, offering the inserted cable simultaneously also with safety against bending stresses. When it is desired to wind up the flat cable, the flat cable is launched from the participating force of the partaking member 65, whereby the winding spring can wind and acquire the extension wire into the housing. Accordingly, as a transmission line for top-frequency operations, the conventional flat versatile cable has inherent frequency limitations.

Through the transmission of high-frequency indicators, the ground conductors positioned between adjacent signal-carrying conductors (which could also be every other or each third, fourth, etc. conductor within the tape cable) are controlling a major portion of the characteristic impedance. The issue of crosstalk between adjacent, intently spaced conductors in individual tape cables was solved empirically by merely designating either alternate or each third, fourth, and so on., conductor as a sign-carrying conductor while the remaining conductors were connected to floor. The invention refers to an apparatus for inserting a flat cable in wall openings, housing partitions, etc., particularly for housings of connectors. The flat cable can be temporarily fastened by a nail or a thumb tack to be connected to a ground or a wall corner. Flat conductor cables developed throughout the past decade provide important benefits over typical spherical cables for a lot of functions. The benefits of the invention consist especially in that an entry of a flat cable is supplied with a tensile stress relief and a simultaneous seal, which is extensively adapted to the cross-sectional form of the flat cable and has a minimum extension within the transversal route of the cross-section of the flat cable. For this purpose, one among the 2 clamps is supplied with faucet holes, and the posts and the other clamp is respectively provided with openings for bolts 15. When the 2 clamps are bolted together, the flat cable 9 is clamped between them and held safely in place.