EP1746691A2 - Connector and mating connector - Google Patents

Abstract

The connector has a clamping sleeve (8) and a sliding sleeve for mechanical connection of a plug housing (2) with a mating connector. An outer conductor contact surface of the mating connector is stretchable axially against an outer conductor contact surface of the plug connector. The clamping sleeve has an end section (15) with a section that is running diagonally outward and with another section that is running diagonally inward and rearward. An axial force component is introduced into a clamping surface by the clamping sleeve in the operating position over the rear running section. An independent claim is also included for a clamping sleeve for bracing a coaxial plug connector and a mating connector.

Description

The invention relates to a coaxial connector and an associated mating connector according to the Obergebriff of claim 1.

Such a connector-mating connector combination is for example from EP 1 222 717 B1 known. In the known connector, a radial force is introduced by means of a biased in the radial direction of the clamping sleeve in the mating connector. This introduced radial force is diverted by an encircling and inclined to the longitudinal axis of the mating connector clamping surface in an axial force component. The known connector-mating connector combination therefore always requires an inclined to the longitudinal axis of the mating connector clamping surface in order to redirect the initially radially introduced force into an axial force component.

The invention has for its object to provide a connector of the type mentioned, with an outer conductor contact surface of the mating connector is axially clamped against an outer conductor contact surface of the connector, regardless of the formation of the clamping surface, ie even with a perpendicular to the longitudinal axis of the mating connector clamping surface.

This object is solved by the features of patent claim 1.

Advantageous embodiments of the invention are specified in the subclaims.

The invention is based on the idea to initiate the Axialkraftkomponente directly from the clamping sleeve in the clamping surface of the mating connector and not first to initiate a radial force, which must then be redirected to the clamping surface in an axial force.

Accordingly, a coaxial connector and mating connector is preferred, wherein the connector has a plug housing which is open at its front side for insertion or attachment of the mating connector and which is penetrated by a channel in which an inner conductor contact is arranged insulated, wherein a clamping sleeve and a axially displaceable sliding sleeve for mechanically connecting the plug housing with the mating connector, wherein the sliding sleeve engages around the clamping sleeve in a working position and this exerts a radially inwardly directed force in the working position, wherein the clamping sleeve can be brought to a clamping surface on the mating connector to the plant, and whereby an outer conductor contact surface of the mating connector is axially clamped against an outer conductor contact surface of the connector, wherein the clamping sleeve has an end portion with an obliquely outwardly extending portion and with an obliquely inwardly and rearwardly extending portion au fweist, wherein in the working position on the rearwardly extending portion an axial force component is introduced from the clamping sleeve in the clamping surface, and the clamping sleeve between the connector and the end portion has a widening region and an adjoining tapered region.

In particular, a coaxial plug connector and mating plug is preferred, in which the widening region and the tapering region of the clamping sleeve are resiliently designed for temporary stretching in the axial direction during adjustment between a standby position and the working position.

In particular, a coaxial plug connector and mating plug is preferred, in which the widening region and / or the tapered region is formed between the plug connector and the end section in the manner of latching tongues tapered transversely to the longitudinal extent.

Particularly preferred is a coaxial connector and mating connector, wherein the rearwardly extending portion of the end portion extends parallel or at an acute angle obliquely back in the direction of the clamping surface.

In particular, a coaxial connector and mating connector, in which the clamping surface is perpendicular or under an outwardly and to the mating connector extends obliquely.

In particular, a coaxial connector and mating connector, in which the end portion opposite to the clamping sleeve projections are formed, which extend bent in the radial direction and form a rear stop for the plug housing of the connector.

Particularly preferred is a coaxial connector and mating connector, wherein the end portion of the clamping sleeve is formed as a latching tongue with a spherical or spoon-shaped contact tip.

In particular, a coaxial connector and mating connector, in which the contact tip is widened by lateral projections relative to the other width of the latching tongue is preferred.

Particularly preferred is a coaxial connector and mating connector, wherein the contact tip is formed into a radius outlet of the outwardly extending portion and the obliquely inwardly and rearwardly extending portion of the end portion.

Particularly preferred is a coaxial connector and mating connector, wherein the contact tip of the end portion is formed to form a fold or crease line on the inside of the end portion.

In particular, a coaxial plug connector and mating plug is preferred in which force introduced into the working position on the clamping sleeve is diverted through the clamping sleeve into an axial force component which is introduced directly from the clamping sleeve into the clamping surface.

Preferably, a clamping sleeve for bracing such a coaxial connector and a mating connector is preferred wherein the clamping sleeve has an end portion with an obliquely outwardly extending first portion and with an obliquely inwardly and rearwardly extending second portion, wherein in the working position on the rearwardly extending portion an axial force component is introduced from the clamping sleeve in the clamping surface, and the clamping sleeve between the connector and the end portion has a widening region and an adjoining tapered region.

Since the Axialkraftkomponente directly, that is due to the shape of the clamping sleeve, is introduced through the clamping sleeve itself, in the clamping surface, a force redirection on or in the clamping surface, whereby the clamping surface can even extend perpendicular to the longitudinal axis of the mating connector is unnecessary. Due to the invention, it is no longer necessary to form the clamping surface inclined to the longitudinal axis of the mating connector.

In an embodiment of the invention is advantageously provided that of the clamping sleeve and a radial force component directly, that is directly initiated by the clamping sleeve in a compensation surface of the mating connector. As a result, all forces acting on the mating connector radial force components are compensated, so that even with an inclined formation of the clamping surface only an axial force component is introduced into this.

According to a preferred embodiment, the introduction of the Axialkraftkomponente of the clamping sleeve in the clamping surface takes place only by moving the sliding sleeve in the working position. This means that an axial force component is not automatically transmitted from the clamping sleeve to the clamping surface after the connector and the mating connector have been assembled. For this purpose, first the sliding sleeve must be moved to a working position, in which then a radial force is exerted on the clamping sleeve. As a result, the free end of the clamping sleeve is pressed axially in the direction of the clamping surface, whereby an axial force component is introduced directly from the clamping sleeve into the mating connector. It is provided according to an advantageous embodiment of the invention that the clamping sleeve is initially spaced from the clamping surface after merging of connectors and mating connector and moved only by moving the sliding sleeve in the working position in the direction clamping surface and clamped against the clamping surface in the axial direction.

In a further development of the invention is advantageously provided that the introduction of the radial force component in the compensation surface is carried out only by moving the sliding sleeve in the working position. In this case, the clamping sleeve is initially spaced from the compensation surface and is moved only by moving the sliding sleeve into the working position radially against the compensation surface.

Of course, it is also conceivable that the clamping sleeve is already biased in such a radial direction that a radial force component is already introduced directly into the compensation surface of the counterpart when the sliding sleeve is still in a standby position and has not been moved to the working position.

According to a preferred embodiment, the clamping surface is perpendicular to the longitudinal axis of the mating connector. In Embodiment of the invention is provided with advantage that the clamping surface is provided on a radially outwardly projecting rib of the mating connector and / or a radially inwardly facing recess of the mating connector. It is advantageous if the clamping surface and / or the compensation surface is formed circumferentially around the mating connector.

According to an advantageous embodiment of the invention, the clamping sleeve is formed such that it extends from the connector or from the frontal opening of the connector in the axial direction of the clamping surface of the mating connector, wherein the end portion is angled in the direction of clamping surface or bent back. In this case, the end region of the clamping sleeve extends in particular at an acute angle to the longitudinal axis of the mating connector. In order to improve the clamping effect in the axial direction, it is advantageously provided that the clamping sleeve has a radially outwardly widening region, which is preferably arranged immediately adjacent to the bent end region.

In order to allow a radial movement of the clamping sleeve, the clamping sleeve is provided with axially extending slots, whereby locking tongues are formed. The locking tongues are connected together at one end by a circumferential ring section. Alternatively, the clamping sleeve consists of spaced, distributed over the circumference of the connector, extending in the axial direction, tension springs.

It is advantageously provided that the sliding sleeve engages around the clamping sleeve in a standby position in which the clamping sleeve does not introduce any axial force into the clamping surface. The sliding sleeve can therefore be moved axially between a ready position and a working position. Normally, the sliding sleeve is designed such that Already in the ready position one, albeit small, radial force is exerted on the clamping sleeve. However, the radial force introduced by the sliding sleeve into the clamping sleeve is sufficiently large only in the working position so that an axial force component is introduced into the clamping surface of the mating connector by the clamping sleeve.

Of course, the sliding sleeve can also be designed such that no force is exerted on the clamping sleeve of the sliding sleeve in the standby position.

It is advantageous if the clamping sleeve is received with its radially outermost, in particular end-side, region in a recess on the inner circumference of the sliding sleeve circumference. Advantageously, the recess has a radially tapered axial section, so that the sliding sleeve can be moved from the standby position axially into the working position.

An embodiment of the invention will be explained in more detail with reference to the drawings.

Figur 1

einen Schnitt durch einen erfindungsgemäßen Steckverbinder sowie einen Schnitt durch einen von dem Steckverbinder getrennten Gegenstecker,

Figur 2

einen Schnitt durch den Steckverbinder mit aufgestecktem Gegenstecker mit einer Schiebehülse in Bereitschaftsstellung,

Figur 3

einen Schnitt durch den Steckverbinder mit aufgestecktem Gegenstecker mit der Schiebehülse in Arbeitsstellung,

Figur 4A

eine schematische Vergrößerung eines gewalzten und gestanzten Metallbogens zum Herstellen eine Spannhülse für einen solchen Steckverbinder,

Figur 4B

eine schematische Vergrößerung eines alternativen gewalzten und gestanzten Metallbogens zum Herstellen eine Spannhülse für einen solchen Steckverbinder,

Figur 5

einen Schnitt durch eine Spannhülse und eine Vorderseitige Rastzunge der Spannhülse in einem entspannten gebogenen Zustand einer Bereitschaftsstellung,

Figur 6A

einen Schnitt durch eine solche Spannhülse mit Rastzunge sowie diese umgebende Komponenten von Steckverbinder und Gegenstecker in einer die ' Rastzunge nicht spannenden Arbeitsstellung,

Figur 6B

einen Schnitt in einer die Rastzunge teilweise spannenden Arbeitsstellung,

Figur 6C

einen Schnitt in einer die Rastzunge spannenden Arbeitsstellung,

Figur 7

einen Teilschnitt durch einen Endabschnitt einer Rastzunge und

Figur 8

zwei perspektivische Darstellungen einer Spannhülse mit einer Vielzahl vorderseitiger Rastzungen.

Showing:

FIG. 1

a section through a connector according to the invention and a section through a separate connector from the mating connector,

FIG. 2

a section through the connector with plugged mating connector with a sliding sleeve in the ready position,

FIG. 3

a section through the connector with plugged mating connector with the sliding sleeve in working position,

FIG. 4A

a schematic enlargement of a rolled and stamped metal sheet for producing a clamping sleeve for such a connector,

FIG. 4B

a schematic enlargement of an alternative rolled and stamped metal sheet for producing a clamping sleeve for such a connector,

FIG. 5

a section through a clamping sleeve and a front-side latching tongue of the clamping sleeve in a relaxed bent state of a standby position,

FIG. 6A

a section through such a clamping sleeve with latching tongue and these surrounding components of connector and mating connector in a 'latching tongue not exciting working position,

FIG. 6B

a section in a latching tongue partially exciting working position,

FIG. 6C

a section in a latching tongue exciting working position,

FIG. 7

a partial section through an end portion of a latching tongue and

FIG. 8

two perspective views of a clamping sleeve with a plurality of front locking tongues.

FIG. 1 shows on the left side a plug connector 1 with an end face open in the illustration on the right side and a mating plug 14 for plugging into the plug connector 1 along a longitudinal axis A. To simplify the description, elements of the connector 1, which are facing the mating connector 14, as the front side of the Connector 1 denotes and elements of the connector 1, which are arranged on the opposite side of the mating connector 14 of the connector 1, referred to as rear side. In the same manner, elements of the mating connector 14 which face the connector 1 are referred to as the mating connector 14 on the front side. A clamping sleeve 8 is described here merely as an example assigned to the connector 1. In particular, with regard to the plug and socket functionality, the corresponding components of connector 1 and mating connector 14 are also interchangeable.

The coaxial connector 1 has a plug housing 2 which is open at its front side and is penetrated by a channel 3. An inner conductor contact 4 is arranged in the channel 3 and insulated by means of a sleeve-shaped insulator 5 relative to the plug housing 2. The plug housing 2 forms an outer conductor and has an annular circumferential outer conductor contact surface 6 in the opening on the front side. The insulating sleeve as the insulator 5 is preferably set back flush with this outer conductor contact surface 6 or relative thereto.

Within the frontal opening of the connector 1, the axially projecting clamping sleeve 8 is fixed, which is inserted radially in the opening 7, in particular is pressed. The clamping sleeve 8 is provided on the front side with axial slots 10, whereby a plurality of resilient locking tongues 9 are formed.

FIG. 4A shows a sheet of an electrically conductive material, which is bent in subsequent processing steps in its front region into a desired contour before the sheet is rolled into a sleeve. In the region of a continuous flat rear portion 80, a recess 81 is incorporated with a narrow neck in a side wall. To the opposite side portion of the rear portion 80, a projection 82 is formed with a contour corresponding to the recess 81, so that after rolling the projection 82 is inserted into the recess 81 to hold the sheet in sleeve shape. On the back side 80 locking lugs 83 are formed as projections on the rear portion, which are preferably bent by 90 ° in the inside radial direction to form a stop for a corresponding counter-stop 2a on a backward projection or the rear wall of the housing 2 of the connector 1 in the mounted state , By one or more such locking tabs 83 thus slipping out of the clamping sleeve 8 in the front direction from the connector 1 is prevented, which otherwise in working position when tensioning the mating connector 15 against the connector 1 by means of the clamping sleeve 8 only with complex countermeasures such as a fixed lateral connection or Pressing the tensioning sleeve 8 with the housing 2 could be prevented.

Around the clamping sleeve 8 around a sliding sleeve 11 is arranged, which is limited axially displaceable in the axial direction. Optionally, between the clamping sleeve 8 and the sliding sleeve 11, a further sleeve 11a may be arranged as a guide means for the then displaceable sliding sleeve 11 relative to the further sleeve 11a. In Figures 1 and 2, the sliding sleeve 11 is in a standby position in which it exerts no force on the locking tongues 9.

The front side of the rear portion 80, the resilient detents 9, which are spaced apart by the axial slots 10 extend. The latching tongues 9 extend starting from a circumferentially closed region axially and parallel to the longitudinal axis A of the connector 1. This is followed in the front-sided direction by an obliquely radially outwardly widening region 12, in which the latching tongues 9 in the outward direction from the central longitudinal axis A. weggebogen run as in Figures 2 and 5 is recognized, are in the relaxed state of the locking tongues 9, ie in the standby position, the locking tongues 9 with the widening region 12 preferably spaced apart on a clamping surface 13 of the mating connector 14 in the axial direction. The widening region 12 is adjoined by a tapered region 12a, which again curves back in the axial direction and is shown in FIG. 4A. This serpentine or accordion-shaped contour allows an elastic expansion of the entire latching tongue 9 in their clamping in the working position in an advantageous manner. In addition, this arrangement makes it possible to form an insertion extension 2b at the front end portion of the housing 2, which enables facilitated insertion of the mating connector 14 into the front opening 7 of the housing. Advantageously, the tapering portion 12a is also tapered or waisted with respect to the width of the locking tongues in this portion, in order to further support the elastic properties. Instead of a single widening region 12 and a single tapering region 12a, optionally a plurality of such regions may be formed in succession. Instead of the tapered portion 12a, the latching tongue may be formed without taper, as shown in Fig. 4B.

At the radially outwardly widening and re-tapering region 12, 12a of the locking tongues 9, an end portion 15 connects. The end portion 15 starts with an obliquely outside and slightly front side extending portion 15 a. This is followed by a bent in the direction of the frontal opening 7 or angled portion 15b of the locking tongues 9 at. With this bent portion 15b, the locking tongues 9 are again returned axially in the direction clamping surface 13 and additionally radially in the direction of the longitudinal axis A of the mating connector 14. The bent portion 15b thus leads backward toward the open Connector 1 back. The optionally formed last end piece 15c of the latching tongues 9 is again bent over and runs radially outwards in order to form an enlarged contact surface on the clamping surface 13.

As can be seen in particular from Figures 4 to 7, the end portion 15 is designed in the manner of a spherical or spoon-shaped contact tip. This is taken into account when punching or otherwise finishing the sheet for forming the sleeve by means of corresponding lateral projections 15e on the front-side latching tongues 9 and in their bending deformation. This results in a rearward offset of the side edges in an outer side at the same time crack-free surface in the region of the end portions and thus a stiffening of the spring head of the individual spring leg or locking tongues 9. Such a trained stiffening crest is preferably up in the radius outlet of the outside extending portion 15a and the angled Area formed 15b out. Such a particularly preferred embodiment offers advantages both in terms of the stiff abutment properties of the end portion 15 on the clamping surface 13 as well as in terms of rigidity and lubricity on the lateral compensation or sliding surface 27 of the mating connector 14th

Advantageously, the bending of the spherical or spoon-shaped contact tip of the end portion 15 according to an embodiment to form a fold or crease line 15f from the inside of the end portion 15 takes place.

In the case of the embodiment of the clamping sleeve 8 made of an electrically conductive material, which is otherwise not absolutely necessary, an additional secure electrical connection between the housing 2 of the connector 1 and the housing 16 of the mating connector 14 can be supported on the clamping sleeve 8. The mating connector 14 has an outer conductor in the form of a substantially cylindrical housing 16. At the front, the housing 16 has an annular, circumferential outer conductor contact surface 17 on. In a continuous channel 18 of this housing 16 is an insulator 20, in which a conductor 19 is arranged. On the front side in the conductor 19, a socket 21 for receiving the axially opposite mating connector protruding inner conductor contact 4 of the connector 1 is provided.

In the embodiment shown, the clamping surface 13 is arranged on an outside radially projecting rib 22 of the mating connector 14, wherein the clamping surface 13 is orthogonal to the longitudinal axis A of the mating connector 14. In particular, however, from the perspective of the mating connector 14 rearwardly inclined clamping surface is advantageously implemented.

In Figure 2, the mating connector 14 is attached to the connector 1. For this purpose, the mating connector 14 has been inserted with its front end in the clamping sleeve 8 in the axial direction until the two contact surfaces 6 and 17 touch. The clamping sleeve 8 is stretched during the Aufsteckvorgang in the embodiment shown at least briefly resiliently in the radial direction, which is due to the serpentine or accordion-shaped course of the central portion of the clamping sleeve 8, i. the first portion of the locking tongues 9 is supported very advantageous.

By aligning the angled portion 15b of the end portion 15 in slightly rear axial direction is advantageously both a simple insertion of the mating connector 4 and a pressure against the formed as a compensation surface 27 side surface of the housing 16 of the mating connector 14 causes.

The distance of the detents 9 to each other can be dimensioned such that the mating connector 14 can be moved into the position shown in Figure 2, without the locking tongues 9 must be radially expanded. As mentioned, the sliding sleeve 11 in FIG. 2 is in the ready position, in which it encompasses all locking tongues 9. The locking tongues 9 are received with their radially outermost, end-side regions 15 d of the end portion 15 in a circumferential recess 24 on the inner circumference 25 of the sliding sleeve 11. The recess 24 is dimensioned such that no or at most a small radial force is exerted on the clamping sleeve 8 of the sliding sleeve 11. The recess 24 has a narrowing in the rear and radial direction axial portion 26. In the ready position shown in FIG. 2, the latching tongues 9 abut neither against the clamping surface 13, nor advantageously against the sliding and / or compensating surface 27 of the mating plug 14 extending parallel to the longitudinal axis A of the mating plug 14. There is therefore no force exerted by the locking tongues 9 on the mating connector 14.

In Figure 3, the sliding sleeve 11 is shown in a working position. For this purpose, the sliding sleeve 11 of the shown in Figure 2, retracted ready position in Vorderseitger direction, d. H. axially displaced in the direction of mating connector 14. The axial movement is limited by an end provided on the sliding sleeve 11, circumferential and inwardly facing edge 28 which comes to a radially outwardly opposed surface 29 of the plug housing 2 to the plant.

During the axial movement of the sliding sleeve 11, the axial section 26 is displaced along the radially propagating axial section 12 of the latching tongues 9 until the radially outermost region 15d of the latching tongues 9 comes to rest on the inner circumference 25 of the sliding sleeve running parallel to the longitudinal axis A. As a result, an increasing radial force F _{R is} applied by the locking tongues 9, which generates an axial force component F _a in the spring tongues 9, which is introduced directly, ie directly, into the clamping surface 13 of the mating connector 14. As can be seen in Figure 3, the locking tongues 9 deform in the working position of the sliding sleeve 11 such that the originally creased course of the end portion 15 of the locking tongues 9 is almost smoothed.

Advantageously, an embodiment in the form of an open loop with a recessed leg in the form of the bent portion 15b of the locking tongues 9. Especially in the working position pushes the sliding sleeve 11 on the radially outermost loop portion and causes the bent portion 15b in substantially or completely axial direction against the clamping surface 13 is adjusted back and stretched.

Accordingly, an embodiment is particularly preferred in which the radially outermost region 15d of the latching tongues 9 is designed to extend in a curved manner from the obliquely outside and slightly forwardly extending region 15a to the region 15b of the latching tongues 9 bent in the direction of the frontal opening 7. As a result, a uniform tilting of the entire end portion from a steeper, almost upright position is promoted in an inclined position during the adjustment of the standby position in the working position, wherein in the inclined position of the bent portion 15b of the locking tongues 9 parallel or almost parallel to the compensation surface ,

Advantageously, for the same reason, the transitional area between the bent portion 15b of the locking tongues 9 and the last end piece 15c, which slides during the adjustment on the compensation surface, is also curved.

In Figure 6C, the force curve of the working position shown in Figure 3 is shown schematically with reference to a latching tongue 9. As explained, a radial force F _{R is introduced} into the locking tongues 9 by the sliding sleeve 11 in the working position. As a result, an axial force component F _a and a radial force component F _r arise already in the latching tongue 9. The Axialkraftkomponente F _a is introduced directly from the free end portions 15c of the locking tongues 9 in the preferably perpendicular to the longitudinal axis A of the mating connector 14 extending clamping surface 13 and generates there a counterforce F _a '. The radial force component F _R is fed directly from the free end portions 15c of the locking tongues 9 in the to the mating connector 14 encircling and extending parallel to the longitudinal axis A of the mating connector compensating surface 27 and there creates a counter-force and compensation force F _r '. In contrast to the embodiment shown schematically in Figure 4, the free end portions 15c of the locking tongues 9 of course also rest flat against the clamping surface 13 and / or the compensation surface 27. Advantageously, the free end 15c of the locking tongues 9 is bent so far that it rests parallel to the clamping surface 13. Particularly advantageous is an embodiment in which the free end portion 15c of the locking tongues 9 is bent so far that it rests against the clamping surface 13 and from there to its free end bent back or bent from view of the plug housing 2 in the front-side direction. The free end 15c of the end portion 15 is angled in the direction of clamping surface 13 at this fitting and bent back from the clamping surface 13 away.

Figures 6A to 6C show an exemplary sequence when connecting the plug-in housing 2 and the connector 1 with each other. Figure 6A shows a state in which the plug housing 2 and the connector 1 are gestekct to each other, wherein the sliding sleeve 11 is in a recessed basic position. The recess 24 receives the end portion 15 of the locking tongues 9 so that this preferably still not applied to the compensation surface 27. When advancing the sliding sleeve 11 in the front-side direction, the bevelled wall of the recess 24 presses the end portion 15 of the locking tongues 9 in the radial direction so that the end portion 15 abuts the compensation surface 27 and presses against it, as shown in Figure 6B. In this case, a radial force F _r , which of the wall 25 of the Sliding sleeve 11 acts on the outer circumference of the end portion 15 acts in the compensation surface. Further displacement of the sliding sleeve in a further basic position ultimately causes the clamping of the plug-in housing 2 and the connector 1 described in accordance with FIG. 6C.

A comparison of Figure 5 and Figure 6 shows the advantageous serpentine configuration of the locking tongues 9 with an initially widening and then tapered region 12, 12a, whereby the locking tongue 9 when adjusting in the working position shown in Figure 6 can stretch, which ultimately beneficial wide return of the last end 15c of the end portion 15 in the rear direction against the clamping surface 13 allows, wherein the angled or bent portion 15b for increasing the Axialkraftkomponente F _a relative to the radial force component F _r is displaceable at advantageously low angle to the longitudinal axis A. It is particularly preferred an embodiment in which the bent portion extends 15b parallel to the compensating surface, the radial component force F _r is reduced to zero.

Because all radial force components F _{r are} compensated for on the compensation surface 27, only an axial force component F _{a is} introduced into the clamping surface 13, even if the clamping surface 13 should be inclined relative to the longitudinal axis A of the mating connector 14.

Figure 8 illustrates a perspective view of the clamping sleeve whose advantageous embodiment with a plurality of individual locking tongues 9 which clamp the clamped mating connector 14 advantageously parallel to the axis in front of the connector 1.

LIST OF REFERENCE NUMBERS

1

Connectors

2

plug housing

2a

Rear counter stop on the plug housing

2 B

Insertion expansion on plug housing3channel

4

Inner conductor contact

5

insulator

6

Outer surface contact area

7

frontal housing opening

8th

clamping sleeve

9

locking tongues

10

axial slots

11

sliding sleeve

12

radially outwardly widened portion of the locking tongues

12a

radially inwardly tapered portion of the locking tongues

13

Clamping surface '

14

Mating connector

15

End portion of the locking tongues

15a

Outside extending portion of the end portion

15b

Angled or bent portion of the end portion

15c

last end piece of the end section

15d

radially outermost region of the end portion

15e

lateral projection of the end section

15f

Crease line of the end section

16

casing

17

Outer conductor contact surface

18

channel

19

ladder

20

insulator

21

Rifle

22

rib

23

front end

24

recess

25

inner circumference

26

radially narrowing axial section of the exemptions 24

27

compensation area

28

edge

29

counter surface

80

Rear section of the clamping sleeve

81

Recess in the rear portion of the clamping sleeve

82

Projection on the rear portion of the clamping sleeve

83

Locking tabs on the clamping sleeve

F _R

radial force

F _a

axial force

F _a '

Counterforce to the axial force component

F _r

Radial force component

F _r '

Counterforce to the radial force component

A

longitudinal axis

Claims (24)

Coaxial connector (1) and mating connector (14), - wherein the connector has a plug housing (2) which is open at its front side for insertion or insertion of the mating connector and which is penetrated by a channel (3) in which an inner conductor contact (4) is arranged isolated, - Wherein a clamping sleeve (8) and an axially displaceable sliding sleeve (11) for mechanically connecting the plug housing with the mating connector, - wherein the sliding sleeve engages around the clamping sleeve in a working position and exerts a radially inwardly directed force (F _R ) on it in the working position, - wherein the clamping sleeve on a clamping surface (13) can be brought to the mating connector to the plant, and ' whereby an outer conductor contact surface (17) of the mating connector can be clamped axially against an outer conductor contact surface (6) of the connector, characterized in that - The clamping sleeve (8) has an end portion (15) with an obliquely outwardly extending portion (15 a) and with an obliquely inwardly and rearwardly extending portion (15 b), wherein in the working position on the rearwardly extending portion (15 b) a Axialkraftkomponente (F _a ) of the clamping sleeve (8) is introduced into the clamping surface (13), and - The clamping sleeve (8) between the connector and the end portion (15) has a widening region (12) and an adjoining tapered portion (12 a). Coaxial connector and mating connector according to claim 1,
characterized in that the the widening region (12) and the tapered region (12a) of the clamping sleeve (8) are resiliently designed for temporary stretching in the axial direction (A) during an adjustment between a ready position and the working position. Coaxial connector and mating connector according to one of the preceding claims,
characterized in that
between the connector and the end portion (15) of the widening region (12) and / or the tapered portion (12 a) in the manner of transverse to the longitudinal extension of the tapered locking tongues (9) is formed. Coaxial connector and mating connector according to one of the preceding claims,
characterized in that the rearwardly extending portion (15b) of the end portion (15) extends parallel or at an acute angle obliquely back in the direction of the clamping surface (13). Coaxial connector and mating connector according to one of the preceding claims,
characterized in that the clamping surface (13) extends obliquely perpendicular or under an outwardly and to the mating connector. Coaxial connector and mating connector according to one of the preceding claims,
characterized in that the end portion (15) opposite to the clamping sleeve (8) projections are formed which are bent in the radial direction and form a rear stop for the plug housing (2) of the connector (1). Coaxial connector and mating connector according to one of the preceding claims,
characterized in that the end portion (15) of the clamping sleeve (8) is designed as a latching tongue with a spherical or spoon-shaped contact tip. Coaxial connector and mating connector according to claim 7,
characterized in that the contact tip is widened by lateral projections (15e) relative to the other width of the latching tongue (9). Coaxial connector and mating connector according to one of claims 7 or 8,
characterized in that the contact tip is formed into a radius outlet of the outwardly extending portion (15a) and the obliquely inwardly and rearwardly extending portion (15b) of the end portion (15). Coaxial connector and mating connector according to one of claims 7 to 9,
characterized in that the contact tip of the end portion (15) is formed to form a fold or crease line (15f) on the inside of the end portion (15). Coaxial connector and mating connector according to one of the preceding claims,
characterized in that in the working position on the clamping sleeve (8) introduced force (F _R ) by the clamping sleeve (8) in an axial force (F _a ) is diverted, the directly from the clamping sleeve (8) introduced into the clamping surface (13) becomes. Coaxial connector and mating connector according to claim 1,
characterized in that of the clamping sleeve (8) a radial force component (F _r ) directly into a compensation surface (27) of the mating connector (15) is initiated. Coaxial connector and mating connector according to one of the preceding claims,
characterized in that the introduction of the Axialkraftkomponente (F _a ) of the clamping sleeve (8) in the clamping surface (13) and / or the introduction of the radial force component (F _r ) in the compensation surface only by moving the sliding sleeve into the working position. Coaxial connector and mating connector according to one of the preceding claims,
characterized in that the clamping sleeve (8) only by moving the sliding sleeve (11) in the working position on the clamping surface (13) can be brought to bear. Coaxial connector and mating connector according to one of the preceding claims,
characterized in that the clamping surface (13) perpendicular to the longitudinal axis (A) of the mating connector (14). Coaxial connector and mating connector according to one of the preceding claims,
characterized in that the compensation surface (27) parallel to the longitudinal axis (A) of the mating connector (14). Coaxial connector and mating connector according to one of the preceding claims,
characterized in that the clamping surface (13) is provided on an externally radially protruding rib (22) of the mating connector (14) and / or a radially inwardly facing recess of the mating connector (14). Coaxial connector and mating connector according to one of the preceding claims,
characterized in that the clamping surface (13) and / or the compensation surface (27) around the mating connector (14) is formed circumferentially. Coaxial connector and mating connector according to one of the preceding claims,
characterized in that the clamping sleeve (8) axially past the clamping surface (13) and the end region (15) in the direction of clamping surface (13) angled or bent or the end region (15) in the direction clamping surface (13) angled abuts this and again bent away from the clamping surface (13). Coaxial connector and mating connector according to one of the preceding claims,
characterized in that the clamping sleeve (8) has a radially outwardly widening region (12), preferably immediately adjacent to the end region (15). Coaxial connector and mating connector according to one of the preceding claims,
characterized in that the clamping sleeve (8) is provided with axially extending slots (10). Coaxial connector and mating connector according to one of the preceding claims,
characterized in that the sliding sleeve (11) surrounds the clamping sleeve (8) in a standby position in which the clamping sleeve (8) no Axialkraftkomponente (F _a ) in the clamping surface (13) initiates. Coaxial connector and mating connector according to one of the preceding claims,
characterized in that the clamping sleeve (8) with its radially outermost, in particular frontal, area in a recess (26) on the inner circumference (25) of the sliding sleeve (11) is accommodated. Clamping sleeve for clamping a coaxial connector (1) and a mating connector (2) according to one of the preceding claims,
characterized in that - The clamping sleeve (8) has an end portion (15) with an obliquely outwardly extending first portion (15 a) and with an obliquely inwardly and rearwardly extending second portion (15 b), wherein in the working position on the rearwardly extending portion (15 b ) An axial force component (F _a ) of the clamping sleeve (8) in the clamping surface (13) is introduced, and - The clamping sleeve (8) between the connector and the end portion (15) has a widening region (12) and an adjoining tapered portion (12 a).

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