EP3579346A1 - Electrical connector for circuit boards - Google Patents

Abstract

An electrical connector (1.1) is provided with an outer conductor (2.0), a sleeve (2a) and at least one inner sleeve (2a, 2b) which is arranged inside the sleeve (2a) and extends in the axial direction over a portion of the sleeve (2a) extends with an inner conductor (3.0) and with a dielectric (4.0) designed as a cylindrical dielectric body (4) with an inner bore for receiving the inner conductor (3.0), in which the sleeve (2a) has an axial holding section (2.1) and an axial compensation section (2.2) is formed, which is connected via an axial bending section (2.3), in which the bending section (2.3) has at least one slot (5.1) running on a circumferential line (L1) of the sleeve (2a), the non-slotted area is designed as a connecting web (5.0) connecting the holding section (2.1) to the compensating section (2.2), and in which the dielectric body (5) is formed in the holding section (2.1) has a first partial dielectric body (4.1) and a second partial dielectric body (4.2) arranged in the connecting section (2.2), the first and second partial dielectric bodies (4.1, 4.2) being spaced apart in the sleeve (2a) and an electrical connector arrangement (1) with an electrical connector (1.1) according to one of the preceding claims and a mating connector (1.2).

Description

The invention relates to an electrical connector for printed circuit boards according to the preamble of claim 1 and a connector assembly with an electrical connector according to the invention and an associated mating connector. Furthermore, the invention relates to a use of the connector assembly for the electrical connection of two printed circuit boards.

For the electrical connection of adjacent and parallel aligned printed circuit boards connectors are used, which are attached to opposite surfaces of the circuit boards. Such as B2B (board-to-board) connector designated connectors consist of three connector parts, namely two each attached to the circuit board sockets and an adapter (also referred to as a bullet), which is formed at the two ends in each case as a plug. With such an adapter can be compensated not only a tolerance compensation with respect to the distance of the circuit boards to be connected from each other, but also a lateral axis offset with respect to the longitudinal axes of the two sockets. The disadvantage of such B2B connectors is their three-part view.

A possibility to come to a simplification of the structure, which from the EP 2 780 985 B1 is known to provide a coaxial connector whose outer conductor has a first conductor with a tubular jacket, the ends of which are provided for contact with the two boards and the openings for tolerance compensation with respect to the distance of the boards, and the outer conductor further a tubular second conductor in electrical contact with the first conductor having a portion is connected to the first conductor and is in axially movable contact with a portion of the first conductor. However, with this coaxial connecting element, a lateral offset of the printed circuit boards to be connected to one another can only be compensated poorly.

The invention has for its object to provide an improved connector of the type mentioned, with which a B2B connector is produced. Another object is to provide a connector assembly with this electrical connector, with which a B2B connection can be realized.

These objects are achieved by a connector having the features of patent claim 1 and by a connector assembly having the features of claim 17. Advantageous developments of the invention are the subject of the dependent claims.

• einem Außenleiter, der eine Hülse und mindestens eine Innenhülse, die innerhalb der Hülse angeordnet ist und sich in axialer Richtung über einen Teilbereich der Hülse erstreckt, aufweist,
• einem Innenleiter, und
• einem als zylinderförmigen Dielektrikumskörper ausgebildeten Dielektrikum mit einer Innenbohrung zur Aufnahme des Innenleiters,
  zeichnet sich erfindungsgemäß dadurch aus, dass
• die Hülse mit einem axialen Halteabschnitt und einem axialen Ausgleichsabschnitt ausgebildet ist, welche über einen axialen Biegeabschnitt verbunden sind,
• der Biegeabschnitt wenigstens einen auf einer Umfangslinie der Hülse verlaufenden Schlitz aufweist, wobei der nichtgeschlitzte Bereich als den Halteabschnitt mit dem Ausgleichsabschnitt verbindender Verbindungssteg ausgebildet ist, und
• der Dielektrikumskörper einen im Halteabschnitt angeordneten ersten Dielektrikumsteilkörper und einen im Verbindungsabschnitt angeordneten zweiten Dielektrikumsteilkörper aufweist, wobei der erste und der zweite Dielektrikumsteilkörper voneinander beabstandet in der Hülse angeordnet sind.

Such an electrical connector with

• an outer conductor having a sleeve and at least one inner sleeve which is arranged within the sleeve and extends in the axial direction over a partial region of the sleeve,
• an inner conductor, and
• a formed as a cylindrical dielectric body dielectric with an inner bore for receiving the inner conductor,
  is characterized according to the invention by the fact that
• the sleeve is formed with an axial holding portion and an axial compensating portion, which are connected via an axial bending portion,
• the bending section has at least one slot extending on a peripheral line of the sleeve, the non-slotted area being formed as a connecting web connecting the holding section to the compensating section, and
• the dielectric body has a first dielectric sub-body arranged in the holding section and a second dielectric sub-body arranged in the connecting section, the first and the second dielectric sub-bodies being arranged at a distance from one another in the sleeve.

With such an electrical connector according to the invention, which realizes a B2B connector in conjunction with a mating connector, the tolerance compensation compensating the lateral misalignment is integrated into the electrical connector by means of a flexible bending section of the sleeve. By means of this flexible bending portion of the compensation portion relative to the holding portion, which is preferably connected to a circuit board, are pivoted from the direction of the longitudinal axis of the sleeve of the connector. This eliminates a known from the prior art adapter, so that only two components are required to implement a B2B connector.

This makes it possible to automate the assembly process and the connection of the circuit boards, since the two components of the B2B connector according to the invention can be designed as SMD components.

To clarify the terminology used, it should be noted that a circumferential line of a sleeve in the description of the electrical connector and / or the sleeve in a cylindrical coordinate system in which the axis defining the axial direction by the insertion direction of the electrical connector is given, is a line whose points all have the same coordinate on this axis, so that the circumferential line in a plane which is perpendicular to the direction of insertion, is located.

The construction of the outer conductor with a sleeve and at least one inner sleeve, which is arranged within the sleeve and extends in the axial direction over a partial region of the sleeve, can thereby in particular for use for applications in the field of RF technology substantially to a Improve signal transmission characteristics. It goes without saying that the inner sleeve to be part of the outer conductor must be at least partially in electrical contact with the sleeve.

It is particularly advantageous if an inner sleeve is present, which extends over the bending portion away. From an RF technical point of view, the introduction of slots in an outer conductor embodied as a sleeve, as occurs in the bending section, can lead to a noticeable deterioration of the signal quality. This effect can be effectively counteracted by an inner sleeve which extends over the bending portion and thus covers this area.

Advantageously, this embodiment is characterized in that the inner sleeve in the bending section springs back radially. In order to ensure the desired mobility of the connector in this area, void volumes must remain between the first and the second partial dielectric body, which entail HF-technically undesirable effects. Due to the radial spring back of the inner sleeve in this area, these void volumes can be significantly reduced.

According to a particularly preferred embodiment of the invention, the inner sleeve with the holding portion mechanically fixed and electrically connected and electrically contacted with the connecting portion such that the contact point or the contact surface between the inner sleeve and holding portion on the inner surface of the connecting portion is displaceable. In this way, it is possible that the quality of the electrical contact hardly changes due to mechanical stress on the contact surface during deformations of the compensation section.

If the inner sleeve is supported on the first partial dielectric body arranged in the holding section and / or connected to the first dielectric partial body arranged in the holding section, in particular a wandering of the inner sleeve in the plug connector can be prevented.

In this case, it is particularly preferred if the inner sleeve is radially spaced from the second partial dielectric body arranged in the connecting section. This measure can help to prevent undesired deformation of the inner sleeve in the axial direction, which may occur in particular during axial loading of the connecting portion, and prevent the contact surface between the connecting portion of the sleeve instead, when such a load occurs. more specifically, its inner surface, and the contact portion of the inner sleeve to the connecting portion of the sleeve on the inner surface of the sleeve shifts.

In order to ensure this, in a preferred embodiment, the second partial dielectric body arranged in the connecting section is stepped, so that its diameter is in the direction of the first dielectric partial body decreased. However, this distance should be kept as low as possible.

This reaction is further supported by a load in the axial direction when the inner sleeve is shaped such that the contact region of the inner sleeve to the connecting portion of the sleeve, via which the electrical contact is made, protrudes in the radial direction, which is particularly preferably realized by shaping as a circular segment can be.

It is particularly preferred if the inner sleeve is mechanically biased so that at the contact point or on the contact surface between the inner sleeve and holding portion a contact pressure acts on the inner surface of the connecting portion to a good and intimate electrical contact between the inner sleeve in this even with deformation of the compensation section To ensure area.

It is further particularly preferred if a second inner sleeve is present, which extends into a contact zone of the connecting portion of the sleeve, in which the electrical connection is made to the associated mating connector.

This makes it possible, in particular, for the contact zone of the connecting section to widen in a funnel shape in the direction of the plug-side end of the sleeve, which may be desirable in order to ensure good electrical contact with the outer conductor of a mating connector engaging the outer conductor of the sleeve as a socket, and yet a negative one To avoid influencing the RF signal largely. Particularly preferred is the use of inner sleeves, which are elastically deformable, that has high elasticity, as is the case for example with spring materials.

In one embodiment of the invention, at least two slots are arranged one behind the other in the circumferential direction of the sleeve, wherein preferably in the axial direction of the bending portion is formed with at least two slots which are arranged offset from one another. This makes it possible to achieve a sufficient bending radius with which an axial offset can be compensated with production-standard values.

According to a particularly preferred embodiment of the invention, the connecting web is formed with an axial width corresponding to the width of the slot. Such a slot has an axial width, so that the opposite end faces of the holding portion and the compensation portion are spaced and therefore also the connecting web has an axial width of the slot corresponding axial length, whereby the required bending elasticity is ensured in the region of the bending portion.

A further advantageous development of the invention provides that the inner conductor has a cross-sectional taper in the transition region of the first dielectric sub-body and the second dielectric sub-body. As a result, the required flexural elasticity is also given to the inner conductor in the region of the bending section of the sleeve.

A further improvement of the bending elasticity in the region of the bending section is ensured by the fact that the diameter of the inner conductor in the region of the second dielectric part body with a smaller diameter compared to Diameter of the inner bore of the second dielectric part body is formed.

In order to ensure the dielectric property of the dielectric of the connector according to the invention, according to a further embodiment of the invention, one of the adjacent end faces of the first and second Dielektricssteilkörpers a blind hole and the other end face adapted thereto contour, however, has a smaller diameter than the blind hole to an axial offset and / or tilting the second dielectric body relative to the first dielectric body.

A further improvement of the bending elasticity in the region of the bending section is achieved according to further development in that the connecting web has an inwardly pointing and circumferentially extending bead.

With such a bead in the connecting web of the second partial dielectric body is formed with a groove extending in the axial direction, which is congruent with the connecting web for receiving the bead and is therefore designed with a depth corresponding to at least the height of the bead on the inner wall of the sleeve. Preferably, the bead is formed as a triangular bead. This causes a length compensation with these bead-like connecting webs during a pivoting of the compensating section relative to the holding section.

According to a further preferred embodiment of the invention, the holding portion of the sleeve on an opposite end of the bending portion with a connecting flange for mechanical and electrical connection to a circuit board educated. Thus, the sleeve of the connector according to the invention can be used as an SMD component.

According to the invention, it is provided that the compensating portion of the sleeve is formed with an opposite end of the bending portion with a contact zone for electrical contact with a mating connector. In this case, the contact zone of the compensation section preferably has a peripheral bead, the bead bottom of which is designed to make contact with an outer conductor of a mating connector.

Preferably, the second partial dielectric body is formed shortened by the axial length of the contact zone, that is arranged outside the contact zone, so that the sleeve can receive the contact zone of a mating connector in the region of the contact zone as a socket.

• einen als Hülse ausgebildeten Außenleiter mit einer Kontaktzone zur Kontaktierung des Außenleiters des Steckverbinders und einem Verbindungsflansch zur mechanischen elektrischen Verbindung mit einer Leiterplatte,
• einen Innenleiter mit einer Sacklochbohrung zur Aufnahme des Innenleiters des elektrischen Steckverbinders,
• ein als zylinderförmiger Dielektrikumskörper ausgebildetes Dielektrikum mit einer Innenbohrung zur Aufnahme des Innenleiters.

Such an electrical connector assembly with an electrical connector according to the invention and a mating connector is characterized according to the invention in that the mating connector comprises:

• a sleeve formed as outer conductor with a contact zone for contacting the outer conductor of the connector and a connecting flange for mechanical electrical connection to a circuit board,
• an inner conductor with a blind hole for receiving the inner conductor of the electrical connector,
• a dielectric formed as a cylindrical dielectric body with an inner bore for receiving the inner conductor.

Such an electrical connector assembly is suitable for use as a B2B connector for connecting two parallel printed circuit boards in which a lateral axis offset between the electrical connector and the associated mating connector is compensated by the bending portion of the connector according to the invention.

Figur 1

eine Außenansicht eines ersten Ausführungsbeispiels des erfindungsgemäßen elektrischen Steckverbinders,

Figur 2

eine axiale Schnittdarstellung des elektrischen Steckverbinders nach Figur 1,

Figur 3

eine axiale Schnittdarstellung eines Gegensteckverbinders zum Steckverbinder nach Figur 1 und 2, und

Figur 4

eine axiale Schnittdarstellung einer erfindungsgemäßen Steckverbinderanordnung aus einem Steckverbinder gemäß Figur 1 und 2 und einem Gegensteckverbinder gemäß Figur 3.

The invention will now be described in detail by means of embodiments with reference to the accompanying figures. Show it:

FIG. 1

an external view of a first embodiment of the electrical connector according to the invention,

FIG. 2

an axial sectional view of the electrical connector after FIG. 1 .

FIG. 3

an axial sectional view of a mating connector for connector after FIG. 1 and 2 , and

FIG. 4

an axial sectional view of a connector assembly according to the invention from a connector according to FIG. 1 and 2 and a mating connector according to FIG. 3 ,

The FIGS. 1 and 2 show an electrical connector 1.1, which together with an associated mating connector 1.2 according to the FIG. 3 a connector assembly 1 as a B2B connector two printed circuit boards, not shown, as shown in Figure 4 electrically interconnects. This is done according to FIG. 4 the electrical connector 1.1 via a connecting flange 2.10 mechanically and electrically with a printed circuit board and the mating connector 1.2 via a Connection flange 1.23 mechanically and electrically connected to the other circuit board.

This connector assembly 1 has the property that, in the case of a lateral offset or angular offset, the connectors 1.1 and 1.2, which are mechanically connected to the printed circuit boards, allow a tolerance compensation of this offset by means of the electrical connector 1.1 with respect to their axes of symmetry. For example, the connector assembly 1 after FIG. 4 exposed to an angular offset, as he can occur, for example, when the circuit boards are not completely aligned parallel to each other, there is a tilting of the two connectors 1.1 and 1.2 to each other. This tilting is compensated by means of a bending section 2.3 or a bending zone of the electrical connector 2.1 of the connector assembly 1. This compensation or tolerance function of the electrical connector 1.1, which also works with a parallel offset of the circuit boards and thus the axes of symmetry of these arranged on these connectors 1.1 and 1.2 to each other will be explained below.

According to the FIGS. 1 and 2 the electrical connector 1.1 comprises an inner sleeve 2 b, 2 c, which is arranged in each case in the axial direction over a partial region of the sleeve 2 a and consists of a sleeve 2 a and 2, an outer conductor 2. 2, an inner conductor pin 3 as an inner conductor 3 Space between the inner conductor 3.0 and the outer conductor 2.0 largely filling dielectric 4.0, which is constructed as a substantially cylindrical dielectric body 4 in two parts of a first dielectric part body 4.1 and a second dielectric part body 4.2.

The sleeve 2a of the electrical connector 1.1 consists of three axial sections, namely an axial holding section 2.1 and an axial compensating section 2.2, which are mechanically connected via the already mentioned above axial bending section 2.3. At the free end face of the holding section 2.1, a connecting flange 2.10 is formed by the edge region of this end face is widened funnel-shaped outward and thereby creates a contact surface for abutment with a circuit board and the mechanical connection with the same. Furthermore, this connection flange 2.10 is provided with radial slots 2.11.

On the opposite, plug-side end face of the sleeve 2a of the compensation section 2.2 ends in a contact zone 2.20 for electrical contacting of the outer conductor 2.0 and the inner conductor 3.0 with an outer conductor 1.210 or an inner conductor of the 1.240 mating connector 1.2 (see. FIG. 4 ).

In this case, an inner sleeve 2c is arranged in the plug-side end region as a further component of the outer conductor 2.0, which is held between the plug-side end region 4.24 of the second partial dielectric body 4.2 and the inside of a portion of the compensating sections 2.2 of the sleeve 2a and substantially equal to its plug-side end radial distance from the central axis of the electrical connector 1.1 extends.

In the region of the bending section 2.3, two circumferential circumferential lines L1 and L2 extend in the axial direction. As already suggested by the term "perimeter", the axial coordinate of all points on a given perimeter is always identical; the circumferential lines L1 and L2 are therefore in each case a plane, not shown, on which the axial direction is perpendicular.

On the circumferential line L1, two slots 5.1 and 5.2 are arranged, between which each unslotted areas lie on the circumferential line L1 and each form a ring-segment-like connecting web 5.0. On the further circumferential line L2 are also two slits 6.1 and 6.2 lying between these slots 6.1 and 6.2 on the circumferential line L2 unslotted areas as another ring-segment-like connecting webs 6.0. The lying on the circumferential line L2 slots 6.1 and 6.2 are arranged offset from each other over the lying on the circumferential line L1 slots 5.1 and 5.2, so that the connecting webs 5.0 and 6.0 are not axially aligned.

The distance a of the two circumferential lines L1 and L2 is small compared to the axial length L of the electrical connector 1.1. The slots 5.1, 5.2, 6.1 and 6.2 have a width b, which may be for example 1mm. The axial length of the connecting webs 5.0 and 6.0 therefore correspond to the width b of the slots 5.1, 5.2, 6.1 and 6.2. The adjacent position of the two circumferential lines L1 and L2 leads to the formation of an annular region 7 between slots 5.1 and 5.2 on the circumferential line L1 and the slots 6.1 and 6.2 on the circumferential line L2. The two sections of the sleeve 2, the holding section 2.1 and the compensating section 2.2 are connected via this annular region 7 and on the one hand via the connecting webs 5.0 and on the other hand via the connecting webs 6.0.

With such a bending section 2.3 of the sleeve 2a, a hinge-like property is achieved, so that the compensating section 2.2 can be angled relative to the holding section 2.1. However, the slots 5.1, 5.2, 6.1 and 6.2 in the sleeve 2a can lead to a negative influence on the signal quality, in particular in the case of HF signals, which must be compensated or at least limited.

For this purpose, an inner sleeve 2b is provided as a further component of the outer conductor 2.0, which is arranged within the sleeve 2a. The inner sleeve 2b, which is elastic, has a holding section 2.5 arranged in the holding section 2.1 of the sleeve 2a, which is in electrical contact with the inner surface of the holding section 2.1 of the sleeve 2a and is preferably fastened to this inner surface and / or to the first dielectric partial body 4.1.

Further, the inner sleeve 2b has a subsequent to the holding portion 2.5 in the plug-side direction, the bending section 2.3 of the sleeve 2a from inside overlapping radially recessed portion 2.6 and adjoining the radially recessed portion 2.6 connecting portion 2.7, which within the balancing section 2.2 of the sleeve 2a runs.

More specifically, the connection section 2.7 runs as shown in FIG FIG. 2 is exemplified, preferably in a small distance, which may be, for example, about 1mm or even less than 1 mm, to the second dielectric body 4.2. Furthermore, the electrical contact to the compensation section 2.2 of the sleeve 2a is made by a contact section 2.71 of the connecting section 2.7 projecting in the radial direction, so that an electrical contact is made to the inside of the compensation section 2.2 of the sleeve 2a, which is particularly good if at least the Connection section 2.7 the inner sleeve 2a is mechanically biased so that the contact section 2.71 is pressed against the inside of the compensation section 2.2 of the sleeve 2a. However, the contact section 2.71 is not firmly connected to the inside of the compensating section 2.2 of the sleeve 2a, so that the contact point or the contact line can move.

In addition, the elastic bending property is also to be ensured for the dielectric 4.0 and the inner conductor 3.0.

The corresponding bending elasticity for the dielectric 4.0 is achieved in that the dielectric body 4 is produced in two parts from a first dielectric sub-body 4.1 arranged in the holding section 2.1 and a second dielectric sub-body 4.2 arranged in the equalizing section 2.2.

These two dielectric part bodies 4.1 and 4.2 are spaced apart in the sleeve 2 by means of a gap formed by adjacent end faces 4.11 and 4.21, wherein the gap 4.3 is aligned with the annular region 7 of the bending section 2.3 starting from the peripheral surface of the two dielectric part bodies 4.1 and 4.2.

The two end faces 4.11 and 4.21 of the two partial dielectric bodies 4.1 and 4.2 are formed with contours adapted to each other. The end face 4.11 of the first dielectric part body 4.1 projects into the bending section 2.3.

Accordingly, the first dielectric body 4.1 has a section 4.13 in which its extent is reduced in the radial direction by a step 4.14 to the radially recessed Take up section 2.6 of the inner sleeve 2b and be able to support it in the axial direction.

Furthermore, the first dielectric body 4.1 has a central blind hole 4.12, to which the end face 4.21 with a cylindrical extension 4.22, which dips into the blind hole 4.12, is adjusted. The diameter of the extension 4.22 is smaller than the diameter of the blind hole 4.12, so that the gap 4.3, starting from the peripheral surface of the two dielectric part 4.1 and 4.2 over a radial distance between the extension 4.22 and the peripheral surface of the blind hole 4.12 continues like a labyrinth to the inner conductor 3.0 ,

The diameter of the second partial dielectric body 4.2 widens starting from the extension 4.22 in stages over a first stage 4.25 and a second stage 4.26 to the full inner diameter of the sleeve 2a. The first stage 4.25 of the second dielectric sub-body 4.2 is configured with regard to its diameter and its axial extent such that it does not come into contact with the recessed portion 2.6 of the inner sleeve 2b even at maximum deformation of the bending section 2.3 of the sleeve 2a. The second stage 4.26 of the second partial dielectric body 4.2 is designed such that it does not come into contact with the contact portion 2.71 of the inner sleeve 2b in the axial direction at maximum axial deformation of the bending section 2.3 of the sleeve 2a.

The inner conductor 3.0 as inner conductor pin 3 is mounted in an inner bore 4.10 of the holding section 2.1 and an inner bore 4.20 of the compensation section 2.2, wherein in the region of the groove bottom of the blind hole 4.12 on the front page 4.11 of the holding section 2.1 of the inner conductor pin 3 a Has cross-sectional tapering 3.1 in the form of a circumferential groove 3.10 with rectangular cross-section, said groove 3.10 extends into the extension 4.22. In the region following the groove 3.10 in the direction of the compensating section 2.2, the inner conductor pin 3 has a diameter d which is slightly smaller than the diameter D of the blind bore 4.20 of the second partial dielectric body 4.2.

With an inner conductor pin 3 formed in this way, together with the 2-part dielectric body 4 and the bending section 2.3 of the sleeve 2, the bending elasticity of the connector 1.1 required for compensating for a lateral axial offset with respect to the axes of symmetry A1 and A2 of the electrical connector 1.1 and the mating connector 1.2 is achieved.

The for the connector assembly 1 according to the FIG. 4 used mating connector 1.2 is in FIG. 3 and comprises a sleeve 1.21 as outer conductor 1.210, in which an inner conductor pin 1.24 as inner conductor 1.240 and a cylindrical dielectric body 1.26 is arranged as a dielectric 1.260.

The mating connector 1.2 has at one end a contact zone 1.22, into which the sleeve extends 1.21, wherein the plug-side end of the sleeve 1.221 1.21 widens funnel-shaped outward.

At the other end of the mating connector 1.2 is from the sleeve 1.21 a connecting flange 1.23, in which the edge region of the sleeve 1.21 funnel-shaped to form a contact surface for contact with the circuit board 11 and the mechanical connection widened with the same. Furthermore, this connecting flange is 1.23 provided with radial slots 1.230.

Between this connection flange 1.23 and the contact zone 1.22 is the dielectric body 1.26 with an inner bore 1.27 for receiving the inner conductor pin 1.24. This inner conductor pin 1.24 has at its in the contact zone 1.22 projecting end of a slotted and funnel-shaped flared blind hole 1.25 for receiving the inner conductor pin 3 of the electrical connector 1.1.

The electrical connector 1.1 according to the FIGS. 1 and 2 can also be performed with more than two slots 5.1 and 5.2 on a circumferential line L1. In addition, it is also possible to provide only one circumferential line L1 or more than two circumferential lines instead of two circumferentially adjacent lines L1 and L2 provided in the axial direction.

The connector between the electrical connector 1.1 and the mating connector 1.2 is carried out according to FIG. 4 via the formed as a plug contact zone 2.20 of the connector 1.1 and formed as a socket contact zone 1.22 of the mating connector 1.2.

The contact zone 2.20 of the compensating section 2.2 of the sleeve 2 of the mating connector 1.1 has a circumferentially extending and outwardly facing bead 2.21, with the end face of the balancing section 2.2 is widened. To achieve a resilient property 2.20 axially extending slots 2.22 are provided in this contact zone. The second partial dielectric body 4.2 ends before this contact zone 2.20, wherein the inner conductor pin 3 projects into this contact zone 2.20.

For electrically connecting the electrical connector 1.1 with the mating connector 1.2, the contact portion is 1.22 of the mating connector 1.2 pushed onto the formed by the contact zone 2.20 of the sleeve 2 connector, so that the groove bottom of the bead 2.21 on the peripheral surface of the contact zone 1.22 of the sleeve 1.21 to form a electrical contact is applied and at the same time the end of the inner conductor pin 3 of the electrical connector 1.1 is inserted into the blind hole 1.25 of the inner conductor pin 1.24 of the mating connector 1.2 to form an electrical contact, as is apparent from FIG. 4 is apparent.

LIST OF REFERENCE NUMBERS

1

Electrical connector assembly

1.1

electrical connector

1.2

Mating connector for the electrical connector 1.1

1.21

Sleeve of mating connector 1.2

1210

Outer conductor of the mating connector 1.2

1211

plug-in end of sleeve 1.21

1.22

Contact zone of sleeve 1.21

1.23

Connecting flange of sleeve 1.21

1230

Radial slot of connection flange 1.23

1.24

Inner conductor pin

1240

inner conductor

1.25

Blind hole

1.26

Dielektrikumskörper

1260

dielectric

1.27

Inner bore of the dielectric body 1.26

2a

Sleeve of electrical connector 1.1

2 B

Inner sleeve of the electrical connector 1.1

2c

Inner sleeve of the electrical connector 1.1

2.0

outer conductor

2.1

Holding portion of the sleeve 2a

2.10

Connecting flange of the holding section 2.1

2.11

Radial slot of connection flange 2.10

2.2

Compensation section of the sleeve 2a

2.20

Contact zone of the equalization section 2.2

2.21

Beading the contact zone 2.20

2.22

axial slot of the contact zone 2.20

2.23

Groove bottom of the bead 2.21

2.3

Bending section of the sleeve 2a

2.4

Inner wall of the sleeve 2a

2.5

Holding section of the inner sleeve 2b

2.6

radially recessed portion of the inner sleeve 2b

2.7

Connecting portion of the inner sleeve 2b

2.71

Contact section of the connection section 2.7

3

Inner conductor pin

3.0

inner conductor

3.1

Cross-sectional narrowing

3.10

Groove of the inner conductor pin 3

4

Dielektrikumskörper

4.0

dielectric

4.1

first dielectric sub-body

4.10

Inner bore of the first dielectric sub-body 4.1

4.11

Front side of the first dielectric part body 4.1

4.12

Blind hole on the front 4.11

4.13

Section of the first dielectric sub-body 4.1

4.14

Stage in the first Dielekrikumsteilkörper 4.1

4.2

second dielectric sub-body

4.20

Inner bore of the second partial dielectric body 4.2

4.21

Front side of the second partial dielectric body 4.2

4.22

cylindrical extension of the second partial dielectric body 4.2

4.23

Groove of the second partial dielectric body 4.2

4.24

plug-side end region of the second dielectric sub-body 4.2

4.25

first stage of the second partial dielectric body 4.2

4.26

second stage of the second partial dielectric body 4.2

4.3

gap

5.0

connecting web

5.1

slot

5.2

slot

5.3

slot

6.0

connecting web

6.1

slot

6.2

slot

7

annular region of the bending section 2.3

L1

Circumference of the sleeve 2a

L2

Circumference of the sleeve 2a

Claims (19)

Electrical connector (1.1) with - An outer conductor (2.0) having a sleeve (2a) and at least one inner sleeve (2b, 2c), which is disposed within the sleeve (2a) and extends in the axial direction over a portion of the sleeve (2a) comprises, - an inner conductor (3.0), and a dielectric (4.0) designed as a cylindrical dielectric body (4) with an inner bore for receiving the inner conductor (3.0),
characterized in that - The sleeve (2a) with an axial holding portion (2.1) and an axial compensation portion (2.2) is formed, which via an axial bending portion (2.3) are connected, the bending section (2.3) has at least one slot (5.1) running on a peripheral line (L1) of the sleeve (2a), the non-slotted area being formed as a connecting web (5.0) connecting the holding section (2.1) with the compensating section (2.2),
and - The dielectric body (5) in a holding portion (2.1) arranged first dielectric part body (4.1) and in the connecting portion (2.2) arranged second dielectric part body (4.2), wherein the first and the second dielectric part body (4.1, 4.2) spaced from each other in the sleeve (2a) are arranged. Electrical connector (1.1) according to claim 1,
characterized in that the inner sleeve (2b) extends beyond the bending portion (2.3). Electrical connector (1.1) according to claim 2,
characterized in that the inner sleeve (2b) in the bending section (2.3) springs back radially. Electrical connector (1.1) according to one of claims 2 or 3,
characterized in that the inner sleeve (2b) with the holding portion (2.1) is mechanically fixed and electrically conductive and electrically contacted with the connecting portion (2.2) such that the contact point or the contact surface between the inner sleeve (2b) and the holding portion (2.1) on the inner surface of the connecting portion (2.2) is displaceable. Electrical connector (1.1) according to one of claims 2 to 4,
characterized in that the inner sleeve (2b) is supported on the first dielectric partial body (4.1) arranged in the holding section (2.1) and / or connected to the first dielectric partial body (4.1) arranged in the holding section (2.1). Electrical connector (1.1) according to one of claims 2 to 5,
characterized in that the inner sleeve (2b) is radially spaced from the second dielectric partial body (4.2) arranged in the connecting section (2.2). Electrical connector (1.1) according to one of the preceding claims,
characterized in that the inner sleeve is mechanically biased, so that at the contact point or at the contact surface between inner sleeve (2b) and connecting portion (2.2) a contact pressure on the inner surface of the connecting portion (2.2) acts. Electrical connector (1.1) according to one of the preceding claims,
characterized in that a second inner sleeve (2b) is present which extends into a contact zone (2.20) of the connecting portion (2.2). Electrical connector (1.1) according to claim 8,
characterized in that the contact zone (2.20) of the connecting portion (2.2) widens in a funnel shape. Electrical connector (1.1) according to one of the preceding claims,
characterized in that the inner sleeve (2a, 2b) is elastically deformable. Electrical connector (1.1) according to one of the preceding claims,
characterized in that on the peripheral line (L1) of the sleeve (2a) at least two slots (5.1, 5.2) are arranged one behind the other. Electrical connector (1.1) according to claim 1 or 2,
characterized in that in the axial direction of the bending section (2.3) with at least two slots (5.1, 6.1) is formed, which are arranged offset from one another. Electrical connector (1.1) according to one of the preceding claims,
characterized in that the connecting web (5.0) is formed with one of the width of the slot (5.1) corresponding axial length. Electrical connector (1.1) according to one of the preceding claims,
characterized in that the inner conductor (3.0) in the transition region of the first partial dielectric body (4.1) and the second dielectric partial body (4.2) has a cross-sectional taper (3.1). Electrical connector (1.1) according to one of the preceding claims,
characterized in that the diameter of the inner conductor (3.0) in the region of the second dielectric part body (4.2) is formed with a smaller diameter compared to the diameter of the inner bore (4.20) of the second dielectric part body (4.2). Electrical connector (1.1) according to one of the preceding claims,
characterized in that one of the adjacent end faces (4.11) of the first and second partial dielectric body (4.1, 4.2) has a blind hole (4.12) and the other end face (4.21) has a contour (4.22) adapted thereto but which has a smaller diameter than the blind hole (4.22). 4.12) has. Electrical connector (1.1) according to any preceding claim,
characterized in that the second partial dielectric body (4.2) outside the contact zone (2.20) in the connecting portion (2.2) is arranged. Electrical connector assembly (1) with an electrical connector (1.1) according to one of the preceding claims and a mating connector (1.2),
characterized in that the mating connector (1.2) comprises: - A formed as a sleeve (1.21) outer conductor (1.210) having a contact zone (1.22) for contacting the outer conductor (2.0) of the connector (1.1) and a connecting flange (2.23) for mechanical and electrical connection to a circuit board (11), - An inner conductor (1.240) with a blind hole (1.25) for receiving the inner conductor (3.0) of the electrical connector (1.1), - A designed as a cylindrical dielectric body (1.26) dielectric (1.260) with an inner bore (1.27) for receiving the inner conductor (1.240). Use of the electrical connector assembly according to claim 18 for the electrical connection of two printed circuit boards.

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