GB2303749A - A plug-in connector for corrugated tube co-axial connectors - Google Patents

Abstract

A plug-in connector for a coaxial cable with a screwthreaded inner conductor, has a connector housing (35) which has a bore (65) to receive the end of the cable and which also comprises a centrally held plug-in connector inner conductor (15) which is connected to the inner conductor (115) of the cable by way of a central screw (200) which engages into a clamping member (116) which is inserted into the end section of the inner conductor (115) of the cable and which is substantially complementary in profile to the screwthread of the inner conductor of the cable. The inner conductor (15) of the plug-in connector has a bush-like section (15d) on the cable side whose internal contour substantially follows the outer contour of the screwthread of the inner conductor (115) of the cable. The clamping member (116) sits loosely, but non-rotationally, in the bush-like section (15d) of the inner conductor of the plug-in connector, and the head, accessible from the plug-in side, of the central screw (200) passes completely through the inner conductor (15) of the plug-in connector.

Description

A PLUG-IN CONNECTOR FOR CORRUGATED TUBE COAXIAL CABLES The invention relates to a plug-in connector for a coaxial cable which has an outer conductor with a threaded shaft and an inner conductor which is smooth or which also has a threaded shaft.

The invention has particular application to a plug-in connector, for a coaxial cable which has a screwthreaded corrugated tube outer conductor. with a connector housing which has a bore to receive the end of the cable and a corrugated tube screw nut which is screwed onto the cable outer conductor and which is braced to the connector housing.

Plug-in connectors have been previously proposed wherein the screwthreaded outer conductor of the coaxial cable is contacted with the connector housing solely by way of the front edge of the outer conductor being pressed into the bore in the connector housing by virtue of a corrugated tube screw nut which is in threaded engagement with the connector housing being tightened towards an annular face (see for example Patent Specification US-A-3 291 895). Since the materials used for the cable outer conductor. primarily copper- or aluminium alloys, tend towards plastic deformation especially if the cable is exposed to mechanical stresses, with this type of contacting the contacting properties can deteriorate with time, especially with large fixtures.

Therefore, a transition was made a long time ago to plug-in connections which are structurally of a design such that a flange-like.

right-angled, outwardly flanged, or, at least, conically expanded front edge region of the cable outer conductor is clamped between corresponding annular- or conical faces in the connector housing. The one clamping face can be formed on a clamping ring in the connector housing or in the actual bore of that housing. The other clamping face can be provided directly on the corrugated tube screw nut or on a separate thrust collar. Clamping can be done by bracing the corrugated tube screw nut te the connector housing. Instead of this, it is also possible for a separate bracing- or support sleeve to be provided which acts upon the corrugated tube screw nut, and which, in turn, is screwed or braced by way of flange bolts to the connector housing.Plug-in connectors designed on this principle are disclosed. for example, in Patent Specifications DE-A 21 27 927, DE-A-35 22 736 and in DE-A-42 02 813. They have good to very good electrical properties and have proven their worth for many decades. However, they have the drawback that a considerable amount of work is involved in their assembly, particularly the operation of flanging or beading the connectors which require special flanging devices, and subsequent straightening o th end of the outer conductor.

A plug-ii connector for a coaxial cable with a screwthreaded corrugated tube outer conductor may comprise a connector housing which has a bore to receive the end of the cable, a corrugated tube screw nut which is screwed onto the outer conductor of the cable and braced to the connector housing and a bearing ring disposed centrally in the bore of the connector housing and having an outer contour which generally follows the inner contour of the outer conductor of the cable.

Such a plug-in connector can be fitted to a cable which has been cut off at right angles to its axis with the same electrical properties and mechanical reliability, without the outer conductor being previously flanged or beaded.

Thus the inner bearing ring in the connector housing supports the screwthreaded outer conductor of the cable, which bearing ring cooperates with the per se known corrugated tube screw nut, but is disposed between the outer conductor and the inner conductor. This proposal has many advantages from the mechanical viewpoint, particularly from the point of view of assembly, as will be mentioned hereinafter in greater detail. In any case, the bearing ring means that the characteristic impedance changes caused as a result of slight reverberation can easily be compensated for in a suitable place.

Mostly, the bearing ring will produce a small capacitive component.

Part of the inductive component required for compensation in such a case usually occurs, when, in order to fit the plug-in connector to the coaxial cable, the dielectric of the cable is shortened by an amount which is approximately equal to the axial length of the bearing ring.

Such a plug-in connector is advantageous in that no special tools are required to fit it. In particular, flanging or beading of the front edge region of the cable outer conductor is no longer required whereas it was previously carried out either by hand or by special flanging machines for large numbers. This alone considerably reduces fitment time. In addition, mechanical load of the outer conductor caused by flanging is avoided. Furthermore, it has been found that plug-in connectors according to the invention can be fitted to coaxial cables in a way in which the mechanical and electrical properties of the connection can be reproduced from piece to piece to a very high degree.

In the sinplest case, the cable can be supported mechanically by the corrugated tuse screw nut being tightened, particularly if this latter and/or the inner bearing ring is/are provided with a slightly conical corrugated tube screwthread. Therein, the corrugated tube screw nut and/or the bearing ring are designed with axial slits, so that they can be compressed radially by springing through a small degree.

The bearing ring should be as short as possible axially, in order to keep the capacitive component of the characteristic impedance which is caused by it small and also to keep to a minimum the design features which are made to compensate for that characteristic impedance.

Accordingly. the axial length of the bearing ring should be at least equal to half the pitch of the screwthread of the outer conductor of the cable, and should be at the most twice that pitch.

To prepare for fitting, the coaxial cable can be cut off smooth and flush so hat. its outer conductor and inner conductor end in the same radial pIne.

Complete compensation, which may still be desired, for the inductive component can be produced by a suitable reduction to the diameter of the plug inner conductor.

In consideration of the fact that, on the one hand, the corrugation of the cable outer conductor has a certain manufacturerelated tolerance and that, on the other hand, the plug-in connector can only be braced to the end of the coaxial cable if there is a certain amount of axial play between the corresponding parts, it is recommended that a gap be provided between the corrugation profile of the corrugated tube screw nut and that of the bearing ring, which gap is about twice the maximum wall thickness of the cable outer conductor.

A longitudinally sealed connection between the plug-in connector and the cable otter conductor can be obtained if a profile annular seal is arranged at the bottom of the gap between the bearing ring and the corrugated tube screw nut, the front edge, on the cable side, of which profile annular seal, follows the course of the front edge of the outer conductor in the peripheral direction.

Particularly simple fitment of the plug-in connector according to the invention is possible if the pitch of the screwthread of the cable outer conductor is small enough to act as a self-locking thread. In this case, the bearing ring can be non-rotationally connected, e.g.

integrally conl-éctev, to the connector housing. and the connector housing can be screwed onto the pre-assembled unit composed of the outer conductor of the cable and the corrugated tube screw nut which is screwed onto it until the two surfaces are flush. until impact is made, thereby being braced relative to the outer conductor of the cable.

One particular advantage of a plug-in connector according to the invention is that. if designed appropriately, it need not be taken apart to be fitted to the end of the coaxial cable. This means that a considerable amount of time is saved and a considerable degree of safety is given, particularly in the case of exposed fitment locations such as with mast radiators, and the like.This structural design comprises the bearing ring sitting non-rotationally in the connector housing, the corrugated tube screw nut being screwed into the connector housing almost lentil impact is made, and being non-rotationally secured in a position where it is in alignment with the bearing ring and which enables the cable outer conductor to be screwed in, but being held axially displaceably through an amount which corresponds to the bracing path, and the corrugated tube screw nut being braced to the connector housing by way of an axial compression member. e.g. a screwthreaded sleeve or a clamping flange. In this case, to prepare for fitment, all that is necessary is for the casing to be taken from the cable, and possibly for the cable dielectric to be taken out, in order to shorten it by a given amount and to place it back in the cable.The plug-in connector together with the annular flange loosely fixed to it can then be screwed to the cable outer conductor until impact is made. After the annular flange has been screwed to the connector housing, fitment is complete. It will be appreciated that in this case the connection between the inner conductor of the plug-in connector and the inner connector of the cable has to be of a design such that it is either produced automatically when the plug-in connector is screwed onto the cable outer conductor (e.g. on the plug-bush principle) or that it can be produced at the pug-in side of the plug-in connector (for which prior art solutions are also known).

Supporting and contacting the cable outer conductor is also possible by designing the corrugated tube screw nut like a collet chuck.

The corIllgatcd tube screw nut can be integrally or fixedly connected to the cor:nector housing. The bearing ring must then sit in the connector housing so that it is non-rotationally secured and axially displaceable.

Basically. the bearing ring can also be fixedly connected to the connector housing. The corrugated tube screw nut is then abandoned.

However, this makes it necessary for the screwthread of the outer conductor of the cable to have the afore-mentioned self-locking properties or for the cable to have additional mechanical supporting, e.g. by way of a shrink-down plastic tubing between the plug-in connector and the cable casing.

A plug-in connector for coaxial cables can have a tubular screwthreaded inner conductor. having a connector housing which has a bore to receive the cable end and which also comprises a centrally held plug-in connector inner conductor which is contacted with the cable inner conductor by way of a central screw which engages into a clamping member which is inserted into the end section of the cable inner conductor and whose outer peripheral profile is approximately complementary to the screwthread of the inner conductor of the cable.

A plug-in connector of this kind is disclosed in Patent Specification F9-A-0 517 034 which shows a plug-in connector inner conductor basically composed of two parts. The one part is held fixedly in the plug-in connector housing by the conventional support insulator, and, on the cable side, has a sleeve which has a plurality of axial slits. The other part consists of the central screw, and in the fitted condition the slitted sleeve of the first part of the plugin connector inner conductor engages over the cylindrical head of the central screw. To fit the plug-in connector to the coaxial cable, after appropriately adjusting the end of the coaxial cable the clamping member first of all has to be completely inserted into the inner conductor of the cable.The central screw is then screwed into the clamping member until a collar provided on the clamping member between the screw threaded shaft and the head bears firmly against the front face of the inner conductor of the cable. To this end, two flat faces are formed on the collar of the central screw. Some degree of difficulty is caused by the fact that the clamping member has to be inserted into ehe inner conductor of the cable and by the fact that it must sit so t.h:-.t it is ufficiently non-rotational after it has been screwed in not to rebate when the central screw is subsequently rotated. Only after this initial fitment operation can the connector housing, usually in the form of a plug-in head, be fitted to the end of the coaxial cable.

According to the invention there is provided a plug-in connector for a coaxial cable with a tubular, screwthreaded inner conductor, the plug-in connector having a connector housing which has a bore to receive the end of the cable and which also comprises a centrally held plug-in connector inner conductor which is connected to the inner conductor of the cable by way of a central screw which engages into a clamping member which is inserted into the end section of the inner conductor of the cable and which is substantially complementary in profile to the screwthread of the inner conductor of the cable, wherein the inner conductor of the plug-in connector has a bush-like section on the cable side whose internal contour substantially follows the outer contour of the screwthread of the inner conductor of the cable, the clamping member sits loosely, but non-rotationally, in the bush-like section of the inner conductor of the plug-in connector, and that the head. accessible frcr.i the plug-in side, of the central screw passes completely through the inner conductor of the plug-in connector.

Such a pl;g-in connector having the inner conductor integral in design does not have to be pre-assembled to the inner conductor of the cable before the connector housing as a whole is fitted to the end of the cable.

In this way, the plug-in connector can be fitted to the end of the cable in the completely pre-assembled condition, with the central screw loosely inserted into the clamping member, without any further parts or special tools being required to produce the inner conductor connection. The fitment operation takes place simply by screwing the plug-in connector onto the end of the cable until impact is made, whereby the non-rotationally held clamping member comes to lie in the inner conductor of the cable in such a way that in the abutment position its end section fills up the annular gap, which corresponds in its profile to the screwthread of the inner conductor of the cable, between the clamping member and the bush-like section of the inner conductor of the plug-in connector.After the abutment position has been reached, the central screw simply needs to be tightened.

With coaxial cables with tubular, screwthreaded inner conductors.

since these conductors are often subject to significant manufacturing tolerances, it is advantageous if the gap between the profiled outer periphery of the clamping member and the inner contour of the bush-like section of the inner conductor of the plug-in connector in the region corresponding to the screwthread of the inner conductor of the cable is approximately twice the wall thickness of the inner conductor of the cable.

Owing to the presence of the bush-like section of the inner conductor of the plug-in connector, the diameter of the inner conductor of the cable is not the same when it continues inside the inner conductor of the plug-in connector. The change in characteristic impedance which occurs at that place as a result of the increase in diameter is partly cjmpensated for by the fact that the dielectric of the cable has tc be removed roughly over the axial length of the bushlike section vf the inner conductor of the plug-in connector.

Nonetheless, the axial length of the bush-like section of the inner conductor of the plug-in connector should not be unnecessarily large in size. Expediently, the bush-like section of the inner conductor of the plug-in connector is therefore at least equal in axial length to half the pitch of the screwthread of the inner conductor of the cable, but being at the most equal to twice that pitch. The remaining change in characteristic impedance is practically unnoticeable far into the short wave region.

Therefore, in this case. the outer conductor of the cable and the inner conductor of the cable can end in the same radial plane.

However, it is also possible to fully compensate for the remaining change in characteristic impedance, e.g. with plug-in connectors which are used in the high frequency range and/or which are to have a partic:larly small reverberation factor. The outer conductor of the cable is then set back from the inner conductor of the cable by an axial length 'oughly corresponding to that of the bush-like section of the inner conductor of the plug-in connector, the axial length of the connector housing is increased accordingly, and the diameter of the bore of the connector housing is increased over the axial length of the bush-like section f the plug-in connector inner conductor to such an extent that the nominal characteristic impedance is produced in that range as well.Since the increase in diameter through the bush-like section of the inner conductor of the plug-in connector acts in capacitive manner, compensation can also be provided alternatively or additionally, if so required, on the L-C- or L-C-L-principle.

There are various possible ways of holding the clamping member loosely but non-rotationally in the bush-like section of the inner conductor of the plug-in connector. It must always be ensured that the complementary profiles of the outer peripheries of the clamping member and of the inner contour of the bush-like section of the inner conductor of the plug-in connector are oriented towards each other, and remain oriented towards each other, so that these two parts are able to be screwed into or onto the inner conductors of the cable together and without becoming jammed.One simple solution from the manufacturing viewpoint is tt provide the clamping member in the region of the plugin end of its peripheral face with a flattened region. a short axial groove. or the pike, ;lend after inserting the clamping member into the bush-like section and after suitably aligning the parts relative to each other, to provide the bush-like section peripherally with a radial indentation which engages into the flattened region or the axial groove of the clamping member. The capacity for axial displacement of the clamping member which is guaranteed in this way promotes secure bracing of the inner conductor of the plug-in connector to the inner conductor of the cable when the central screw is tightened.

If the piug-in connector is so designed both in the outer conductor connection region and in the inner conductor connection region, with the screwthreads of the outer conductor of the cable and of the inner conductor of the cable having approximately the same pitches. the plug-in connector can be fitted and secured to the coaxial cable as a whole in the pre-assembled condition.

The invention is diagrammatically illustrated by way of example in the accompanying drawings. in which: Figure 1 shows a first embodiment of a plug-in connector according to the invention, prior to fitment; Figure 2 shows a second embodiment of a plug-in connector according to the invention, in the fitted condition; Figure 3 shows a third embodiment of a plug-in connector according to tht inanition, likewise in the fitted condition; Figure 4 shows a fourth embodiment of a plug-in connector according to the invention, partly fitted; Figure 5 shows a fifth embodiment of a plug-in connector according to the invention, in the fitted condition; Figure 6 shows a sixth embodiment of a plug-in connector according to the invention, prior to fitment;; Figure 7 is a detail of a bush-like section of the inner conductor of a plug-in connector according to the invention; Figure 8 is a cross-section taken on line III - III in Figure 7; Figure 9 shows the plug-in connector of Figure 6, in the condition in wnich it is fitted to a cable; and Figure 10 shows an embodiment corresponding to Figure 1, but simplified.

Figure 1 siiows a plug-in connector with a plug-in connector inner conductor 1 which i.. held by way of a support insulator 2 in a connector housing 3. The connector housing 3 has flat faces 3e, and contains an inner bearing ring 4 and a profile annular seal 5 in a bore 6. A corrugated tube screw nut 7 is shown to the right of the connector housing 3. To the right of this, in turn, is a threaded sleeve 8 with an outer thread 8a corresponding to an inner thread 6A in the first part of the bcre 6 of the connector housing 3. An O-ring 9 follows on from the outer thread 8a of the screw housing 8. The threaded sleeve 8 is enclosed by a tube 10 made of shrinkable plastics material but which has not yet shrunk in this state of assembly.

A coaxial cable ready for fitting is shown inside the threaded sleeve 8, which cable consists of a smooth tubular inner conductor 11, a cable dielectric 12. here in the form of a plastics coil of very large pitch, and a cable outer conductor 13 which is helically threaded. The outer conductor 13 of the cable is enclosed by a cable casing 14. which1 to prepare the plug-in connector for fitting, is already set back (removed) from the left-hand, smooth end of the coaxial cable, cut off at right angles to the longitudinal axis thereof, over about two thirds of the length of the threaded sleeve 8.

At 8b the screwthreaded sleeve 8 has flat faces to receive a spanner before the shrinkage tube 10 is pushed over. To secure the shrinkage tube 10 after it has shrunk, the threaded sleeve 8 also has a plurality of annular beads 8 on the outside.

The bearing ring 4 which is arranged centrally in the bore 6 of the connector housing 3 has a peripheral section 4a whose outer contour basically follows the inner contour of the thread of the outer conductor 13 of the cable. In the example shown, the axial length of this section Aa is approximately equal to the pitch of the thread of the outer conductor 13 of the cable. Since. when the plug-in connector is in the fitted condition, the section 4B of the bearing ring 4 is disposed in the shaded space between the inner conductor 11 and the outer conductor 13 of the coaxial cable, it is expedient if the inner contour of the bearing ring 4 in the section 4a thereof - as shown follows its outer contour.Thus the bearing ring 4 is given a substantially constant wall thickness in this section, so that the distance to the inner conductor 11 of the cable is reduced no further than by the arcunt necessary to produce the necessary mechanical strength of the bearing ring. After the plug-in connector has been fitted, the bearing rin. 4 produces a variation in the characteristic impedance in the end region of the coaxial cable. If no further measures were tO be taken, the characteristic impedance in this region would usually be of somewhat lower impedance.However, partial compensation is given for this variation in characteristic impedance by the fact that the cable dielectric 12 usually has to be removed over a length corresponding to the depth of insertion of the bearing ring 4, thus ending at 12a. To provide further and complete compensation, the inner conductor 1 of the plug-in connector also has a region of reduced diameter, as will be explained hereinafter in conjunction with Figure 2.

The parts of the plug-in connector shown to the left of the support insulator 2. including their associated plug inner connector la, are designed in the usual way and are therefore not described in greater detail.

The corrugated tube outer conductor is of the conventional design. Its inner contour 7a basically follows the outer contour of the screwthread of the outer conductor 13 of the cable. On the plug-in side, the corrugated tube screw nut 7 has a conical annular face 7k by means of which it compresses the elastic profile annular seal 5 axially in the fitted condition. The profile annular seal 5 has a lip-like front edge Sa cn the cable side, this front edge following the course of the front edge of the screwthread of the outer conductor 12 of the cable in the peripheral direction.

With cables which have a rigid outer conductor whose screwthread is of a sufficiently small pitch to provide a self-locking effect, the corrugated tube screw nut 7 can be abandoned if the bearing ring is non-rotationally connected to the connector housing, e.g. is pressed into it. An embodiment of this kind is illustrated in Figure 10.

In the embodiment in Figure 1, the proposed plug-in connector is preferably fitted to the coaxial cable. after the coaxial cable has been prepared in the way illustrated, in the following way: first of all, the threaded sleeve 8 is pushed onto the cable, and the corrugated tube screw nut 7 is then screwed onto the outer conductor 13 of the cable until the free end face of the cable outer conductor and the left-hand face of he corrugated tube screw nut 7 are flush. The connector housig 3 is then twisted, with the bearing ring 4 arranged non-rotationa.l therein, into the outer conductor 13 of the cable until impact is made. When this occurs, the front edge 13a, of the outer conductor 13 of the cable comes to bear on the front edge 5 of the profile angular seal 5.At the same time, the corrugated tube screw nut 7 comes to lie in the bore 6 of the connector housing 3, that is to say almost in its end position. The connector housing 3 is then held by a spanner which is held to its flat faces 3a, and the outer screwthread 8a of the screwthreaded sleeve 8 is screwed into the inner thread 6a of the bore 6 of the connector housing 3, wherein its end 'face 8d comes to rest on an annular shoulder 7c on the outer periphery of the corrugated tube screw nut 7.Finally, the corrugated tube screw nut 7 is braced axially, by tightening the screwthreaded sleeve 8 by using a spanner which is held to the flat faces 8k of the screwthreaded sleeve 8, to tire outer conductor 13 of the cable, which, in turn, bears with its inner contour against the outer contour of the bearing ring 4 in the section a of the ring. When this is done. close to the front edge of the cable outer conductor 13 an outer clamping zone is produced which improves the RF shielding, and an inner contact zone is produced.

The clamping- and contact zones are closed annularly in the axial projection, but in reality they follow the screwthreaded course of the screwthread ole rhe able outer conductor 13, and they are disposed approximately iri th > centre of the flank of the corrugation profile.

To finish asse.*Ly, the shrinkage tube 10 can now be pulled forward in the direction of the plug-in connector housing 3 and be shrunk as usual. The shrinkage tube 10 is obviously not a necessary feature of the invention.

The second embodiwent, shown in the fitted condition in Figure 2, differs only slightly from the embodiment of Figure 1. but from the manufacturing viewpoint it has the considerable advantage that the plug-in connector as a whole can be fitted to the coaxial cable without it being broken. To this end, the plug-in connector is pre-assembled in such a way that the corrugated tube screw nut 7 is screwed into the bore 4 of the connector housing 3 and shortly before it abuts on the base of the bore is straightened with respect to the bearing ring 4 in such a way that a gap of uniform size remains between the two parts in the peripheral eand axial extents to receive the outer conductor of the cable.When t;re corrugated tube screw nut 7 is in this position relative to tte bearing ring 4, the corrugated tube screw nut 7 is nonrotationally but axially displaceably secured. There are several possible structural ways of providing this secure positioning. A particularly simple way from the manufacturing viewpoint, and therefore one which is advantageous, is that indicated in the part crosssectional view along the line II-II, whereby the connector housing 3 is provided with a radial indentation 32 which is arranged in the region of one of the flat faces 3a and which is deep enough to enable it to engage in a flat axial groove 71 provided in the right place, with respect to the inner contour, in the peripheral face of the corrugated tube screw nut 7. When the threaded sleeve 8 is only screwed in loosely (when the shrinkage tube 10 has not yet shrunk), the plug-in connector as a whole can be screwed into the end of the coaxial cable according to Figure 1 until impact is made. Then, with the connector housing 3 secured in position, the screwthreaded sleeve 8 is tightened, as described in conjunction with Figure 1. When this is done, the corrugated tube outer conductor 7 is displaced axially relative to the bearing ring 4 into the position shown in the large scale sectional drawing, in which position the outer conductor 13 is tightly braced to the connector housing and simultaneously makes safe electrical contact in the regions A and B.

Figure 2 also shews more clearly the structure of the region of connection between th" inner conductor 1 of the plug-in connector and the inner conductor 11 of the cable. In its region lk, the inner conductor 1 of the plug-in connector has an external diameter which corresponds to the internal diameter of the inner conductor 11 of the cable, and it. is sub-divided in the known way by axial slits into radially sprung segments.However, the region 1k continues over the stretch a on the other side of the front face of the inner conductor 11 of the cable in the direction of the plug-in pin la and only makes a transition there into a section lc which is of a diameter such that together with the internal diameter of the bearing ring 4 it results in the nominal value of the characteristic impedance of the plug-in connector at that place. Therefore, over the distance a the region 1k of the inner conductor 1 of the plug-in connector compensates for the reverberation ellsed ay the variation to characteristic impedance in the region of the bearing ring 4.The length of the distance a is such that optimum coi,pensation is given in consideration of the approximate diameter of the region 1k of the inner conductor 1 of the plug.

Figure 3 shows another embodiment. It differs from that according to Figure 1 in that it has a corrugated tube screw nut 73 which is provided with axial slits emanating from its end at the side of the cable, and in that it has a conical periphery 73d which cooperates with a corresponding conical periphery 83d of a screwthreaded sleeve 83 which is screwed, like a coupling ring, onto the connector housing 33. In this embodiment where the corrugated tube screw nut sirnu.ltaneously acts as a chuck collet, the plug-in connector can seiectively be fitted in the way described in connection with Figure 1 or in the way described in connection with Figure 2.In the latter case, the corrugated tube outer conductor 73 is fixed in the bore 63 of the connector housing 33 so that it is aligned properly with respect to the bearing ring 4 which is shown here as being integral with the connector housing 3. This can be done using any means, e.g.

by pressing it in, since, with this embodiment, the electrical contacting and mechanical clamping to the outer conductor 13 of the cable is not effected by axial displacement but is effected by radial compression of the corrugated tube outer conductor 73, as a result of the conical facts 7d and 83d cooperating with each other.

A fourth embodiment of the plug-in connector is shown in Figure 4. It is to a arge extent the same as the embodiment in Figure 1, but differs from it by the way in which the corrugated tube screw nut 74 is clamped to the connector housing 34. This latter has an annular flange 34b on the side of the cable which is provided with bores through which clamping screws 84a pass, to which threaded holes correspond in a flange- or clamping ring 84b, which, in turn, sits form-lockingly in the axial direction, but rotatably in the peripheral direction, on the corrugated tube screw nut 74 which is extended to form a supporting sleeve.Similarly to the type of fitment already described in connection with Figure 1, when the corrugated tube screw nut 74 is held in the position shown, the connector housing 34 with its bearing ring 4 is screwed into the outer conductor 13 of the cable until impact is made. The clamping ring 84k is then twisted. if necessary, far enough in the peripheral direction for its screwthreaded bores to come into alignment with he clamping screws 84a. After these latter have been tightened properïy. fitment is complete. This embodiment is suitable, in particular, for large fixtures which can no longer be handled using spanners.

The embodiment shown in Figure 5 differs from that in Figure 4 in that the corrugated tube screw nut 75 is provided with an integral clamping flange 75~. The connector housing 35 whose theoretical design is similar to that of the connector housing 34 in Figure 4 has a flange 35k through which clamping screws 85a pass which engage in corresponding threaded bores in the clamping flange 75e. The connector housing 35 encloses a bearing ring 45 in the form of a separate component.

Figure 5 also illustrates the application of the principle, mentioned in connection with Figures 1 to 4, of supporting and contacting the outer conductor of the cable onto a screwthreaded cable inner conductcr 115. This latter embraces a clamping member 116 whose external contour substantially follows the internal contour of the screwthread o the corrugated tube of the cable inner conductor 115.

With respect to its operation, the clamping member 116 therefore corresponds to the corrugated tube screw nut 75. Unlike the embodiment according to Figures 1 to 4, the coaxial cable is here usually not smooth and is cut off at right angles to its longitudinal axis, but the cable outer c(,nilctor 135 is set back from the screwthreaded inner conductor 115 of the cable by a length which is approximately equal to the axial length of the bearing ring 45. On the side of the cable, the inner conductor 15 of the plug has a sleeve-like section 15d (cf. also the detail shown) which is bush-like in design and which has an inner contour which substantially follows the outer contour of the screwthread of the inner conductor 115 of the cable.In its operation the section '.5d of the inner conductor 15 of the plug therefore corresponds to the bearing ring 45.

To fit the plug-in connector, the connector housing 35 with the section 15d of the inner conductor 15 of the plug-in connector is screwed onto tlie inner conductor 15 of the cable until the outer conductor 135 of the cable meets the profile annular seal 5 and therein engages over -he bearing ring 45 and a part of the corrugated tube screw nut 75. These tv.i parts - unlike in Figure 2 - have previously been screwed i.l,o and onto the cable outer conductor. Of course, when this happens, t')C-. previous prevention of rotation between the connector housing and the corrugated tube screw nut is released.After the clamping screws 85a have been suitably aligned with the screwthreaded bores in the flange 75eel the clamping screws 85a are tightened. It is therefore possible to align the connector housing 35 relative to the corrugated tube screw nut 75 because the inner conductor 15 of the plug-in connector is not form-lockingly held by the support insulator 2, and so the connector housing 35 is able to rotate relative to the inner conductor 15 of the plug-in connector. To mechanically support and clamp and electrically contact the inner conductor 115 of the cable with the inner conductor 15 of the plug-in connector, this latter is provided with a central screw 200 whose head is accessible from the plug-in side and which engages in a screwthread in the clamping member 116. With this type of fitment, the clamping member 116 has to be preassembled on its own in the inner conductor of the cable, and it must be held there non-rotationally. It is more advantageous, if. as with the clamping illember 116 in Figure 2, it is pre-assembled using the loosely inserted central screw 200, aligned with the section 15d and held non-rotationally but axially displaceably therein. To this end, the section 15d has an indentation 151 by means of which it engages in an axial groove 116u on the periphery of the clamping member 116. In this way. the parts 15d and 116 can simultaneously be screwed into and onto the inner conductor 115 of the cable.

Figure t shows a yet further improved embodiment of the plug-in connector. which is the same in principle, before it is fitted.

The inner conductor 15 of the plug-in connector is held by a support insulator 25 in the plug head or connector housing 35 which has a stepped bore 65.

To the right of the connector housing 35 are the outer conductor bearing ring 45 and the corrugated tube outer conductor 75. This latter has the flange 75e which is intended to provide the screw fixture to the flange 35k of the housing 35 by means of the clamping screws 85.

The bearing ring 45 of the outer conductor has a cylindrical section 451 on the plug-in side, this section being provided in two diametrally oppositel disposed places with axial grooves 452, each of which is short mxd tapers off into the peripheral face of the section.

Radial indentations 752 engage into these grooves, these indentations being formed on ; cylindrical. thin-walled extension portion 751 of the corrugated tube oucer conductor 75 which engages over the section 451 of the outer conductor bearing ring 45. In this way, the outer conductor bearing ring 45 (and also the profile annular seal 5) is held undetachably and non-rotationally, but axially displaceable to a small extent, in the corrugated tube screw nut 75.

In turn. to the right of the corrugated tube screw nut 75 is the corrugated tube axial cable which comprises the tubular screwthreaded inner conductor 115, the cable dielectric in the form of a support insulator 125. the screwthreaded outer conductor 135 and also the cable casing 145.

On the side of the cable. the plug-in connector inner conductor 15 has the sleeve-like section 15d in front of the support insulator 25, and the whole of the central screw 200 passes through it with its head being accessible from the plug-in side of the plug-in connector (to the left of the drawing), so that the central screw 200 is rotatable, e.g. by means of a hexagon socket screw key. The central screw 200 turned loosely by means of its screwthread into a central screwthread of the clamping member 116, which, in turn, sits in the bush-like section 15d of the inner conductor 15 of the plug-in connector.

As can be seen more clearly in Figure 7 showing the clamping member 116 by way of broken lines, the outer periphery of this clamping member is approximately complementary in profile to the screwthread of the inner conductor 115 of the cable. The bush-like section 15d in turn, has an inner contour which substantially follows the outer contour of the screwthread of the inner conductor 115 of the cable.

In the pre-assembled condition shown, the clamping member 116 sits non-rotationally with its outer profile oriented to the inner profile of the sleeve-like section 15b, but it is loose and therefore displaceable through a small amount in the axial extent in the sleevelike section 15~. To this end, the clamping member has the flattened region or flat groove 116a which can best be seen in Figures 7 and 8, into which flattened region or flat groove the radial indentation 151d on the outer :elviphery of the sleeve-like section 15d of the plug-in connector inne conductor 15 engages.

To fit the plug-i connector, the connector housing 35 with the sleeve-like section 15d of the plug-in connector inner conductor 15 is screwed onto the cable inner conductor 115 until the cable outer conductor 135 meets the profile annular seal 5 and therein engages over the bearing ring 45 and a part of the corrugated tube screw nut 75.

Both these parts have previously been screwed into or onto the cable outer conductor 135. After the flange 35k of the connector housing 35 has been aligned with the flange 75e of the corrugated tube screw nut 75, the clamping screws 85a are screwed into the screwthreaded bores in the flange 75g and firmly tightened. When this is done, the cable outer conductor 135 is clamped between the bearing ring 45 and the corrugated tube outer conductor 75. The connector housing 35 can previously be aligned relative to the corrugated tube screw nut 75 since the inner conductor 15 of the plug-in connector is not formlockingly held by the support insulator 25, so that the connector housing 35 is able to rotate relative to the inner conductor 15 of the plug-in connector.By tightening the central screw 200, the inner conductor 115 of the cable is mechanically supported, i.e. is clamped and safely contacted electrically between the clamping member 116 and in the sleeve-like section 15d. Assembly is therefore complete, apart from any sealil*; meas-res. and the like.

The particular advantage of this embodiment is that particularly with cables where the pitches of the outer conductor and inner conductor are approximately the same, the plug-in connector can be completely pre-assembled, thus without initially being broken up, onto the ready cable end. To this end. the inner conductor 15 of the plugin connector ma need to be rotated by the use of a socket head screw, or the like, which engages with flat faces 15a provided for it, until the clamping member 116 and the corrugated tube screw nut 75 pass into the respective threaded corrugation of the inner conductor or of the outer conductcr of the cable. If necessary, the inner conductor 15 is turned by way of the spanner whilst the plug head is being screwed on, synchronously. to the connector housing 35.

Even with cables where the pitches of the outer- and inner conductors are very different, the plug-in connector inner conductor can be rotationally moved continuously to give this preferred form of assembly. Figure 9 shows the cable with the fitted plug-in connector.

Claims (6)

1. A plug-in connector for a coaxial cable with a tubular, screwthreaded inner conductor, the plug-in connector having a connector housing which has a bore to receive the end of the cable and which also comprises a centrally held plug-in connector inner conductor which is connected to the inner conductor of the cable by way of a central screw which engages into a clamping member which is inserted into the end section of the inner conductor of the cable and which is substantially complementary in profile to the screwthread of the inner conductor of the cable, wherein the inner conductor of the plug-in connector has a bush-like section on the cable side whose internal contour substantially follows the outer contour of the screwthread of the inner conductor of the cable, the clamping member sits loosely, but nonrotationally, in the bush-like section of the inner conductor of the plug-in connector, and that the head, accessible from the plug-in side, of the central screw passes completely through the inner conductor of the plug-in connector.

2. A plug-in -'onector according to claim 1, wherein the gap between the profiled outer periphery of the clamping member and the inner contour of the bush-like section of the inner conductor of the plug-in connector is uPproximavely twice the wall thickness of the inner conductor of th?. cable.

3. A plug-in connector according to claim 1 or claim 2, wherein the bush-like section of the inner conductor of the plug-in connector has an axial length which is at least equal to half the pitch of the screwthread of the inner conductor of the cable and which is at the most equal to twice that pitch.

4. A plug-in connector according to any one of claims 1 to 3, wherein the outer conductor of the cable and the inner conductor of the cable end in th* same radial plane.

5. A plug-iri connector according to any one of claims 1 to 4, wherein the clamping member is provided in the region of the plug-in end of its peri@heral face with a short axial groove and the bush-like section is provided in the same radial plane with an indentation which engages into this groove.

6. A plug-in connector for a coaxial cable with a tubular screwthreaded inner conductor substantially as hereinbefore described and illustrates ith reference to the accompanying drawings.