DE7027648U - HF COAXIAL CONNECTOR. - Google Patents

Description

"AIENTANWÄL'E

DIPL-ING. CURT WALLACH

DIPL.-ING. GÜNTHER KOCH

DR. TINO HAIBACH

8 MUNICH 2, July 22, 1970

UNSFR MARK: 12 660 -

Dr.-Ing. Georg Spinner, Munich.

RF coaxial connector

The invention relates to an RF coaxial connector for corrugated cables and the invention is based on the object to improve known plug of this type so that on the one hand a safer and tighter fixation on the cable is guaranteed and on the other hand easier assembly at the construction site, whereby Among other things, improvements should be made with regard to eccentricity compensation.

The invention is based on an RF coaxial connector for corrugated cables with a corrugated pipe nut, which is through a union nut can be clamped and is characterized in that the corrugated pipe nut has a conical inner surface at the end, which the the flared end of the corrugated cable rests on the outside, and that a counter-bearing with a correspondingly conical shape Outer surface provided ring is provided.

Details of the ring bracing and the support of the dielectric between the inner conductor and outer conductor as well as details the connector designs result from the description of the figures in conjunction with the claims.

According to a further embodiment of the invention, the The problem of eccentricity compensation during assembly is achieved in that an insulating support is placed in the inner cable conduit The carrying pin can be screwed in, which has an inner conductor plug socket carries, the spring tongues are dimensioned so that they can compensate for the radial displacement and that the outer diameter the insulating support around the maximum possible eccentricity is smaller than the outer conductor at this point.

The socket can be attached to the inner conductor pin by means of a screw be braced, at the same time the insulating support, which also carries the dielectric of the cable, is also set. the The assembly consisting of a pin, insulating support and socket and clamping screw can then be inserted into the inner conductor thread of the Inner cable conductor. To ensure perfect electrical contact even with extreme radial dislocations To ensure between the spring socket of the inner conductor and the plug inner conductor is according to a further embodiment the invention provided to push a clamping ring over the spring tongues that the radial contact pressure over the circumference compensates.

Exemplary embodiments of the invention are described below with reference to the drawing. In the drawing show:

1 shows a sectional view of an HF cable connector for cell-flex cables,

2 shows an axial section of a coaxial connector with eccentricity compensation mounted on a Zellflex cable,

Fig. 35 is a sectional view of another embodiment of the Cable connector.

In the following, reference is first made to Pig. 1 of the drawing. The corrugated jacket 10 of the cable 11, which forms the outer conductor, is encompassed by a corrugated tube nut 12 into which the plug outer conductor IJ) is screwed in such a way that the conically widened end of the well jacket is axially braced. Between the We.llmantel 10 and the inner cable conductor 15 is the cable dielectric 16. The space formed between the front end 17 ües Kabeidiektrikunis and the insulating support l8 of the plug between the outer conductor 13 and inner conductor 19 is with a ring 20 made of foamed plastic, namely one those filled with closed pores.

A ring 21 provided with a correspondingly conical outer surface rests on the inside of the widened corrugated pipe end 14 and by bracing the corrugated pipe nut 12 against the outer conductor IJ>, which rests against the ring 21 at the rear, the delay and the contact pressure are generated between the corrugated pipe end and the outer conductor. A seal with an L-shaped cross section is located between the rear end of the corrugated pipe nut 12 and the outer cable jacket surrounding the corrugated jacket 10. A screw 235 in the corrugated pipe nut makes the corrugated pipe jacket 10 accessible from the outside at this point in order to be able to inject a sealing compound.

The corrugated jacket is also used in the embodiment according to FIG 10 a corrugated pipe nut 12 is screwed, the end of which is provided with a conical inner surface on which the conically widened Front section 14 of the corrugated jacket is clamped by a clamping ring 12 which is screwed onto the corrugated pipe nut 12 by a clamp ring Union nut 28 is axially tensioned »between the outer conductor 10 and the inner cable conductor 15 is the Cable dielectric 24, which is supported on the front side by a support disk 25.

A threaded pin is located in an internal thread of the inner cable conductor 15 26 screwed in, which carries the insulating support 25. Their outer diameter is around 3 ·. .. 'ag the maximum possible radial Displacement due to eccentricity dc ^ inner cable conductor opposite the outer conductor at this point (ring 21) is reduced. A spring bushing 30 is clamped on the pin 26 by means of a screw 29, this spring bushing 30 with its end ring surface axially supports the insulating support 24 on one side, which is on the the other side is supported by a S ^ ufe 32. This stage 32 makes axial contact with the end ring surface of the inner cable conductor.

The spring tongues 3 ^ of the spring socket 30 encompass the inner conductor pin 36, which is exactly coaxial with respect to the plug, and the spring tongues 34 are dimensioned and designed so that any eccentricity, ie a radial displacement of the inner cable conductor 15 'relative to the inner conductor 36 of the plug, can be compensated. At very high eccentricities can be applied to the spring tongues a ring to compensate de :? radial contact forces of the individual tongues are drawn up.

In this embodiment according to FIG. 2, too, FIG a radial screw 23 is screwed into the corrugated tube nut 12, which makes the outer cable conductor accessible in order to, as can be seen, inject a sealant. A seal 22 'seals the rear end of the corrugated tube nut with respect to the outer cable conductor away. Another seal 3I is located between the front end ring surface of the union nut 28 and the Corrugated pipe nut 12. In this embodiment too, the cavity between the outer conductor section 13 is the union nut 28 and the inner conductor filled with a ring 20 made of foamed plastic. In the encompassed by the spring bushings 34

Connector inner conductor 36 is a de *; Connection inner conductor plug 40 is screwed in, forming a pin, which carries a further insulating support 42. The front end ring surface of the outer conductor has a cross-section V = fcm: ige groove 43 and inside a ·. * ± n schnittjir xro a C ^ to the one leg 44 - engages rschnitt I-shaped ring, which at the same time äu.C <- ■ <.:. Ν v / ld succumbed · · · of the insulating support 42 forms. An annular disc 45 lie _t ^A .EV end face and the ring 44 to cover the groove under the 43rd I.aoh vor-a, the ring 44 continues to a slotted sleeve 46.

In the embodiment of Figure 3 is again on the Corrugated jacket 10 of the cable 11, a corrugated pipe nut 12 screwed on. Between its conical inner surface and a correspondingly conical one The conically widened end 14 of the corrugated jacket is clamped on the outer surface of a ring 21. The tension takes place over a union nut 28 'screwed onto an outer conductor sleeve 13. In this embodiment, the clamping ring 21 is supported in a step 47 of the outer conductor sleeve 13 from and on the rear end ring surface of the ring 21

a sleeve 20 'made of dielectric material is supported, which are at their other end on a step 47'der Outer conductor sleeve 13 is supported and also with its end on the Ring 44. This sleeve 20 'stands over a step 48 with the cable dielectric 16 in connection or supports this axially.

According to the following claims, protection should be based on the design of the individual connector parts described and shown in the drawings as well as to their overall combination.

Protection claims:

70276A8-5.ii.70

Claims (1)

- 6 protection claims: 1- axial connector for corrugated cable with a corrugated tube c ^ r, which is braced by a union nut, . 'characterized in that the corrugated pipe nut (12) has a conical inner surface at the end has, which rests against the flared end (14) of the ttellkabel (11) on the outside, and that a counter bearing with a correspondingly conical outer surface Ring (21) is provided. 2. Coaxial connector according to claim 1, characterized in that it is marked that the corrugated pipe nut (12) is designed at the same time as a union nut and when screwed onto the outer conductor sleeve (13) causes the axial preload (Fig.l). j. Coaxial plug according to Claim 1, characterized in that a union nut (28) on which the clamping ring (21) is supported is screwed onto an external thread of the corrugated pipe nut (12) (Fig. 2). 4. Coaxial connector according to Claim 1, characterized in that that the corrugated pipe nut (12) is supported on a union nut (28 ') which is axially attached to a clamping ring (21) supporting outer conductor sleeve (1>) is screwed on (Fig. 3) 5. Coaxial connector according to claim 1 to 3 * characterized in that the corrugated tube nut (12) has a radial bore which can be closed by a screw (23) and the outer line ter for the purpose of introducing a sealant or the like. accessible power. 6. Coaxial connector according to Claims 1 and 2, characterized in that a sealing ring (22) with an L-shaped cross-section is inserted in a ring recess at the rear end of the Weilröhr-nut. 7. Coaxial connector according to claims 1 unc * 3> characterized in that between the conically turned end ring surface of the Union nut (28) and the opposite end ring surface of the corrugated pipe nut (12) a seal (31) is inserted. 8. Coaxial connector according to claims 1 and 3 » characterized in that in the cable inner conductor tube (2Oj -iiz »an insulating support (25) bearing pin (29) inscribed. , oar is, which is an inner conductor socket (30) whose spring tongues (34) are dimensioned so that they compensate for the radial displacement can and that the outer diameter of the insulating support (25) is smaller than the maximum possible eccentricity Outer conductor (21) at this point. 9. coaxial connector according to claim 8,
characterized in that the socket (30), the inner conductor pin (26) and the insulating support (25) are braced to form a structural unit by means of an axial retaining screw (29). 7O27648-5.1U0 -βίο. Coaxial connector according to claim 8, thereby gekennzei chnet that on the spring tongues (34) of the socket (30) a Compensating ring is pulled on. 11. Koaxialstcckcr according to claims 1 and. ? _; 4. characterized in that the front ring face of the outer conductor sleeve (13) is provided with a groove (43) which is V-shaped in cross section. 12. Coaxial connector according to claim 11, characterized in that a radial in an inner recess of the end ring surface extending leg of a ring (44) which is L-shaped in cross section and axially supports an insulating support (42). 13 Kcaxial plug according to claims Ii and 12, thereby gekennzei chnet that the ring (44) outwardly into a slotted sleeve (46) is extended. 14. Coaxial connector according to claims 11 to 13, characterized in that that over the end face of the outer conductor sleeve (13) an washer (45) lies.