DE19918861C2 - Coaxial connector - Google Patents

Description

The invention relates to a coaxial connector with a fe changing outer conductor contact according to the preamble of claim 1.

The Foundation for Electrotechnical Standardization (CECC) beats in the output CECC 22 240, from 1993 Hochfre a frequency coaxial connector before the series 1, 6/5,. 6 The standard defines the length of the outer conductor contact at 6.5 ± 0.1 mm, the outer diameter at 6.61 - 0.04 and the inner diameter of the outer conductor contact at 5.62 + 0.034 mm. The spring-loaded outer conductor contact is realized in the coaxial connector depicted in the standard by axial spring lamellae, on the front side of which an outwardly pointing bead is formed and which are separated from one another by longitudinal slots which run almost over the entire length of the outer conductor spring.

The outer conductor spring must be well conductive on the one hand and others have resilient properties. To these two Achieving properties as optimally as possible is essential for Outer conductor spring ver the very expensive copper berillium material turns. This has a much poorer conductivity copper as such, but is springy. To the guide ability to increase, the entire outer conductor spring or at least the front ring bead with a gold surface overdrawn.

Since the entire connector or two-part version at least the entire outer conductor spring from the very expensive Copper berillium material is produced and subsequently at least the area of the bead with a gold surface is coated, the outer conductor spring represents an essential Chen cost point in the production of a coaxial Connector.  

US 5 807 117 A shows in accordance with the Oberbe Handle of claim 1 a coaxial connector with a spring the outer conductor contact, in which the spring from an open Ring is formed with axial spring plates, on which an outwardly pointing bead is formed in the center, and which are separated from each other by longitudinal slots, which run almost the entire length of the outer conductor spring, similar to how it was initially in connection with the CECC edition 22 240 of the Association for the Promotion of Electrotechnical Standardization represents is. The cost of materials is not as high as in one made entirely of copper beryllium Plug, since only the outer conductor spring made of this material stands, but the cost of materials is considerable.

A similar outer conductor spring in the form of an open ring US 5 041 020 A shows axial spring lamellae.

From US 4,743,205 is a coaxial connector socket a spring sleeve known that Einpreßkon on one side clock to be pressed into the via holes of a lei has terplatte, and at its other end a sleeve with a pair of radial springs attached to their outer Wear the ends of the contact lugs.

The invention is therefore based on the object of a spring to show the phase contact, which is cheaper can be manufactured.

This object is achieved according to the invention by the features of claim 1.

About the separately designed radial spring only needs to se made of the expensive copper berillium material the.

On the one hand, this is due to the separate design of the spring from the coaxial connector to the other by training as Radial spring in contrast to the previously used axial Spring slats a large amount of the expensive copper berillium Material saved. The fact that a radial spring in essence Lichen has an annular geometry is the resilient Effect with much less material than the axial Spring slats, which cover almost the entire outer conductor run the length, achievable.

In addition, there is always an axial spring lamella the danger that this when the Koa Bend the xial connector into a mating connector. By ver Using at least one radial spring eliminates this risk cleared.

In order for the coaxial connector to have the dimensions of the CECC 22 240 A cylinder is prematurely met on this standard shaped section with the length specified in the standard Outer conductor spring formed, which the at least one Ra dial spring accommodates. So the coaxial connector can also be used a mating coupler in accordance with the standard described above become. The fact that in the cylindrical portion of the Koa xial connector the longitudinal slots between the axial spring blades  is eliminated, the RF tightness of the coaxial connector significantly increased.

An advantageous embodiment provides that the at least a radial spring via a connecting element on one Ring is arranged, which is the end face in the cylindrical Section of the coaxial connector can be used.

A groove is advantageously in the cylindrical section trained, in which the ring engages when inserted. By the interaction of the ring and the groove in the cylindri The section of the coaxial connector is the at least one Radial spring can be fixed in a simple manner on the coaxial connector.

The at least one is advantageously at the free end Radial spring arranged an outwardly projecting contact lug net, which by a recess in the cylindrical Ab cut across the outer circumference of the cylindrical portion protrudes. Through this training, the radial spring is ge protects arranged inside the cylindrical section net and the contact is only through the contact he enough. In this embodiment, it is therefore sufficient only the contact nose or in one embodiment with several Radial springs close the contact lugs with a gold surface cover.

The fact that only the contact nose one or more Radial springs the contact lugs through the recess in the cylinder protrude the shaped portion of the coaxial connector and otherwise Most of the cylindrical section is completely closed maximum HF tightness is achieved.

Further advantageous embodiments of the invention result itself from the subclaims and the following description exercise.

Using an embodiment shown in the drawings game, the invention is explained in more detail below. In show the drawings

Fig. 1 is an oblique view of the coaxial connector with a pulled-out outer conductor spring

Fig. 2 shows the oblique view of FIG. 1 with the releasing ter outer conductor spring

FIGS. 3 and 4 are each an oblique view of the Außenleiterfe,

FIGS. 5 and 6 shows a cross-section and a perspective view of the mating coupler, and

Fig. 7 shows the cross section of a plug connection with Koa xial connector with inserted outer conductor spring and mating coupler.

Fig. 1 shows the coaxial connector according to the invention with pulled out outer conductor spring 1 in an oblique view. The coaxial connector has a cylindrical portion 2 , in which the end face, as shown in Fig. 2, the Außenlei terfeder 1 can be used.

In FIGS. 3 and 4, the outer conductor spring 1 is shown on an enlarged scale ßertem. It consists of four radial springs 3 which are connected to a ring 5 via connecting elements 4 . The radial springs 3 each describe a Winkelbe range of not quite 90 ° and are fixed with their fixed ends to the connecting elements 4 . In the embodiment shown, guide, for example, at each connecting element 4, two Ra dialfedern 3 is arranged, which extends on both sides from the extension element extending away Verbin 4 and thus together area describe an angle of almost 180 °. Between the ring 5 and the radial springs 3 , two connecting elements 4 are thus arranged, which are exactly opposite one another.

At the free ends of the radial springs 3 Kon contact lugs 6 are provided, which protrude beyond the outer diameter d1 of the radial springs 3 and the ring 5 . The con tact lugs 6 are each arranged on the end of the radial spring 3 facing away from the ring 5 . They thus protrude over the free ends of the radial springs 3 in the plug-in direction as well as in the radial direction. The outside of the contact lugs 6 is provided with a rounding 7 both in the plugging direction and counter to the plugging direction.

Since the radial springs 3 each describe an angular range of almost 90 °, the free ends of the radial springs 3 and the contact lugs 6 are each spaced apart by a spring gap 8 .

As shown in FIGS. 1 and 2, the outer conductor spring is assembled by being inserted into the cylindrical section 2 of the coaxial connector.

For this purpose, U-shaped recesses 9 are provided on the cylindrical section 2 in the area of the contact lugs 6 , which are dimensioned in depth and width such that the contact lugs 6 can be accommodated in them exactly and no longer over the end face of the cylindrical section 2 survive.

The inside of the cylindrical section 2 of the coaxial connector is turned out at the end in a region 10 so that the outer conductor spring can be easily inserted. The turned area 10 ends in the direction of the coaxial connector in a paragraph 11 . Furthermore, a radially inwardly projecting rib 12 is provided in the turned region 10 , via which the ring 5 of the outer conductor spring 1 is pressed when the outer conductor spring 1 is inserted, and thus latches between the rib 12 and the shoulder 11 at the end of the turned region 10 . The connecting elements 4 are between ring 5 and radial springs 3 redially offset inward angeord net

As can be seen from Fig. 5, the rib 12 and the shoulder 11 are arranged so that the contact lugs 6 do not touch the end face 13 of the recesses 9 . The risk of jamming or undesired frictional forces in this area is thus eliminated.

If the outer conductor spring 1 is inserted into the cylindrical section 2 of the coaxial connector as shown in FIG. 2, the contact lugs 6 also protrude beyond the outer diameter d2 of the cylindrical section 2 . The outer sides of the contact lugs 6 thus describe a diameter d3, which is larger than the outer diameter d2 of the cylindrical portion 2 .

In FIGS. 5 and 6, the outer conductor shell is shown of a mating coupler 14 which the plug dimensions according to the standard CECC 22 240 corresponds. The mating coupler 14 has a receiving shaft 15 in the length of the cylindrical section from 2 of the coaxial connector. The inner diameter d4 of the receiving shaft 15 is larger than the outer diameter d2 of the cylindrical portion 2 , but somewhat smaller than the outer diameter d3, which is described by the non-sprung contact lugs 6 .

Fig. 7 shows in cross section the coaxial connector with inserted outer conductor spring 1 as it is inserted into the receiving shaft 15 of the mating coupler 14 .

In order to facilitate the insertion of the coaxial plug into the mating coupler 14 , the receiving shaft 15 is provided with a chamfer 16 on the end face. Upon insertion of the coaxial plug in the mating coupler 14, the tabs are thus on the chamfer 16 6 pressed radially inwardly, whereby the Fe The gap decreases 8 between the contact noses. 6 Due to the rounded portions 7 on the outside of the contact lugs 6 , they can easily slide along the inner wall of the receiving shaft 15 . In the fully assembled state of the coaxial connector and the mating coupler 14 , as shown in Fig. 7, the contact lugs 6 are thus pressed by the Ra dial springs 3 constantly against the inner migration of the receiving shaft 15 , which is a low-resistance connection between mating coupler and coaxial Connector guaranteed.

To improve the contact properties, the entire outer conductor spring 1 or only the contact lugs 6 can be coated with a gold surface. Characterized in that the Kontaktna sen 6 project axially over the radial springs 3 , it is easily possible in the dipping process to coat only the contact lugs 6 with gold.

Due to the protected arrangement of the radial springs 3 in the cylindri's section 2 of the coaxial connector, there is no risk that the radial springs 3 bend even when inserted obliquely into the mating coupler 14 . Through the closed cylindrical section 2 of the coaxial connector, a very high RF tightness is also achieved.

Claims (11)

1. Coaxial connector with a resilient outer conductor contact, the resilient effect of which is achieved by at least one spring which can be fixed on the coaxial connector, characterized in that one or more radial springs ( 3 ) are arranged on a closed ring ( 5 ) via associated connecting elements ( 4 ) are, which can be inserted at the end in the cylindrical section of the coaxial connector. 2. Coaxial connector according to claim 1, characterized in that the coaxial connector has a cylindrical section ( 2 ) which receives the radial springs ( 3 ). 3. Coaxial connector according to claim 2, characterized in that in the cylindrical portion ( 2 ) an inwardly radially circumferential rib ( 12 ) is formed, behind which the ring ( 5 ) engages when inserted into the coaxial connector. 4. Coaxial connector according to one of claims 1 to 3, characterized in that an outwardly projecting contact lug ( 6 ) is arranged at the free ends of the radial springs ( 3 ). 5. Coaxial connector according to claim 4 in conjunction with claim 2, characterized in that in the cylindrical portion ( 2 ) at least one recess ( 9 ) is provided through which the contact lug ( 6 ) of the at least one radial spring ( 3 ) protrudes. 6. Coaxial connector according to claim 5, characterized in that the depth of the recess ( 9 ) corresponds to the depth of the contact lug ( 6 ) in the direction of insertion. 7. Coaxial connector according to one of claims 4 to 6, characterized in that the contact lug ( 6 ) is arranged in the plug-in direction on the end face at the free end of the radial spring ( 3 ). 8. Coaxial connector according to one of claims 4 to 7, characterized in that the contact lug ( 6 ) is provided on the outside in the plug-in direction with roundings ( 7 ). 9. Coaxial connector according to one of claims 1 to 8, characterized in that four radial springs ( 3 ) via two connecting elements ( 4 ) on the ring ( 5 ) are arranged and the radial springs each describe an angular range of less than 90 ° and the free ends of the radial springs ( 3 ) are spaced on the end face via a spring gap ( 8 ). 10. Coaxial connector according to one of claims 2 to 9, characterized in that the at least one contact lug ( 6 ) at the free end of the at least one radial spring ( 3 ) in the state inserted into the coaxial connector via the outer diameter (d2 ) of the cylindrical portion ( 2 ) of the coaxial connector protrudes. 11. Connector, consisting of a coaxial connector according to one of claims 1 to 10 and a mating connector ( 14 ) with a cylindrical receiving shaft ( 15 ), characterized in that the one or more radial springs ( 3 ) when inserting the coaxial connector in the mating coupler ( 14 ) is pressed against the inner wall of the receiving shaft ( 15 ).