EP0116157B1 - Coaxial plug and socket device - Google Patents

Description

The invention relates to a coaxial connector according to the preamble of the claim.

Such a plug device is known in all essential details from US-A-4 012 105. Since the contact fingers of one outer conductor sleeve run straight and without pre-bending in this known coaxial plug-in device, the contact bead formed by the approaches of the contact fingers has a maximum radius which is larger than the radius of the inside diameter of the other outer conductor sleeve in the hollow cylindrical section thereof. When plugged in, the contact fingers are therefore bent inwards with their free ends. However, this bend may only be very slight, because otherwise difficulties can arise when making contact between the outer conductor sleeves and when inserting the contact fingers into the other outer conductor sleeve.

In contrast, it is an object of the present invention to design a coaxial plug-in device of the type mentioned at the outset in such a way that the inward bending of the free ends of the contact fingers can be selected with a view to capacitive compensation of the inductive interference zones in the plug-in area, without having to fear interference in the contact between the outer conductor sleeves .

According to the invention, this object is achieved in that, in the case of a coaxial plug-in device of the type mentioned at the outset, the outer radius of curvature of the contact fingers in the region of the contact bead is equal to half the inside width of the other outer conductor sleeve in the hollow cylindrical region of this sleeve.

Even with a relatively large inward bend in the free ends of the contact fingers in the other outer conductor sleeve, this results in a ring bulge which lies over a large area of the inside of the other outer conductor sleeve and which comes close to an ideal ring contact and thereby avoids difficulties in joining the two connector halves.

An exemplary embodiment of the invention is explained in more detail below with reference to three figures.

The figures show, omitting all details that are not absolutely necessary for understanding the invention, enlarged, in oblique and side view and partly in section, the two connector halves of a coaxial connector according to the invention in the unmated (FIG. 1) and in the inserted state (FIG . 2), and the free end of a contact finger (Fig. 3).

The figures show in detail that each plug device half of the coaxial plug device shown consists of an outer conductor sleeve 1, 2 and an inner conductor contact element 7, 8.

The outer conductor sleeves 1, 2 are e.g. each connected to the outer conductor of a coaxial cable in a manner not shown, and the inner conductor contact members 7, 8 each connected to the inner conductor of the coaxial cable concerned.

In order to establish a high-frequency contact between the two outer conductor sleeves 1, 2, the outer conductor sleeve 1 assigned to the one connector device half is divided in a section 9, which faces the outer conductor sleeve 2 of the other connector device half, by slots parallel to the axis 4 of the one connector device half in contact fingers 3 which are evenly distributed over the circumference of the outer conductor sleeve 1.

At their free ends, the contact fingers have radially outward projections 5, which together form an annular contact bead 11.

The contact fingers 3 extend parallel to the axis 4 of the outer conductor sleeve 1 without any pre-bending or pre-tensioning.

The outer conductor sleeve 2 of the other plug device half is provided on its side facing the contact fingers 3 of the outer conductor sleeve 1 with a mouth section 6, in the area of which the clear width of the contact sleeve 2 widens conically. The greatest clear width of the mouth section 6 is larger than the maximum outer diameter of the contact bead 11, which is formed by the lugs 3 of the individual contact fingers 3. In contrast, the clear width of the outer conductor sleeve 2 in a region 12 of the outer conductor sleeve 2 adjoining the mouth section, in which this sleeve has a cylindrical interior, is dimensioned slightly smaller than the outer diameter of the contact bead 11.

As a result, the conical opening section 6 urges the projections 5 of the contact fingers 3 against the axis 4 of the sleeve 1 when the two outer conductor sleeves are inserted into one another. As a result, the fingers 3 are bent at the end against the axis 4. As a result, the lugs 5 are pressed resiliently against the inner wall of the sleeve 2 when the sleeve 1 with the contact fingers 3 is inserted into the sleeve 2 and the end position of the two sleeves in the assembled state has been reached.

In this way, the contact fingers 3 inside the sleeve 2 run slightly inward towards their free ends and thereby reduce the distance between the sleeve 1 and the nested internal conductor contact members 7, 8 of the plug device.

The capacitive interference in the plug-in area generated in this way advantageously compensates for inductive interference zones, e.g. through the slots 10 in the outer conductor sleeve 1 and in the inner conductor bushing 8, and through the gap 13 between the inner conductor bushing 8 and the inner conductor pin 7.

The fact that the individual sections of the contact bead 11 at the free end of the contact fingers 3 are provided with an outer radius of curvature R, which corresponds to half the inside width of the other outer conductor sleeve 2 in the hollow cylindrical section 12, ensures that between the contact bead 11 and the outer conductor sleeve 2 a perfect ring contact is formed, although the contact fingers when joining the two Connector halves are bent against the axis of the connector.

Claims (1)

1. A coaxial plug and socket device in two halves, wherein an outer conductor sleeve (1), which is assigned to one half of the plug and socket device, is divided into contact fingers (3) which are evenly distributed around the periphery of the sleeve (1), by means of slots (10), parallel to the axis, in a section (9) which faces an outer conductor sleeve (2) of the other half of the plug and socket device, at their free ends, the freely extending contact fingers (3) being in each case provided with an extension (5) which is radially directed towards the outside, the extensions (5) of all the fingers (3) together forming an annular contact bead (11), and wherein the other outer conductor sleeve (2) has an opening section (6) of a conically expanding interior width, and the one outer conductor sleeve (1) can be plugged into the other outer conductor sleeve (2) by way of the opening section (6) by means of the free ends of the contact fingers in front, where in the un-plugged state of the plug and socket device the outer diameter of the contact bead (11) is less than the maximum internal width of the opening section (6), but greater than the internal width of the other outer conductor sleeve in a region (12) following the opening section (6), and wherein in the un-plugged state of the plug and socket device, the contact fingers (3) are arranged parallel to the sleeve axis (4) without any preliminary bending, characterised in that in the region of the contact bead (11), the outer radius of curvature (R) of the contact fingers (3) equals half the internal width of the other outer conductor sleeve (2) in the hollow-cylindrical region (12) of said sleeve (2).

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