EP2915218B1 - Plug connector with insulating part - Google Patents

Description

The invention relates to a connector with an insulating part, which forms one or more holes for receiving a corresponding number of inner conductors. Through the insulating part, the inner conductors are kept electrically isolated within an outer conductor of the connector.

In the EP 1 825 575 B1 a generic connector is described. The insulating part of the connector has a star-shaped cross section and forms a total of four holes in a square arrangement, which are provided for receiving in each case an inner conductor. The inner conductors are introduced via a respective radial slot in the associated bore and fixed therein positive and non-positive. The insulating part formed from an electrically insulating material ensures permanent positioning of the inner conductors at a distance to an outer conductor which completely surrounds the insulating part, air acting as a dielectric in the radial slots.

The connector has an end which is provided for connection to a complementary connector. The other end is intended for connection to a cable. The corresponding cable-side ends of the inner conductors have two tabs, which form a crimp connection with the corresponding inner conductors of the cable be bent over. It may happen that not all individual wires of the inner conductor between the tabs are clamped and thus extend into the radial slots of the insulating part. This can lead to a short circuit when these individual wires contact the outer conductor of the connector.

DE 10 2010 039314 A1 shows a connector according to the preamble of claim 1.

Based on this prior art, the present invention seeks to provide a connector in which the described risk of short circuit is avoided by a contact between the inner conductor and outer conductor.

This object is achieved by an insulating part and a connector according to the features of the independent claim 1. Advantageous embodiments thereof are the subject of the respective dependent claims.

An insulating part for a connector comprises a base body with (at least) one bore (not limited to machining by drilling, for example) for receiving (at least) an inner conductor of the connector and with (at least) one in the radial direction (with respect to a longitudinal axis of the bore ) opening into the bore through which the inner conductor can be introduced into the bore, and is inventively by a connected to the body cover, which releases the opening in a first position and conceals the opening in a second position, characterized.

Through the cover, a contact between the inner conductor (and in particular of individual wires thereof) of the connector or an associated cable with an outer conductor of the connector is reliably prevented. The fact that the cover releases the opening in its first position, this does not hinder the introduction of the inner conductor in the insulating part during assembly.

A corresponding connector according to the invention comprises (At least) an inventive insulating member, (at least) an inner conductor and (at least) an outer conductor.

In a preferred embodiment of the insulating part according to the invention can be provided that the cover is integrally connected to the main body. Such an insulating part may e.g. be made easily and inexpensively in the form of an injection molded from (electrically insulating) plastic.

It can be particularly preferably provided that the insulating part is made such that the cover is in the first position after production. For the movement of the cover in the second position can then be provided at least local deformation of the cover. This local deformation can also be assisted in that the cover or the transition from the cover into the base body along a predetermined deformation line is weakened. In particular, a film hinge can be formed along this deformation line.

The movement of the cover from the first to the second position preferably takes place about a pivot axis (this may in particular correspond to the deformation line), which runs in the direction of the longitudinal axis of the bore. It is understood by "in the direction" that the pivot axis with the longitudinal axis forms an angle of less than 90 ° and preferably less than 45 °. Particularly preferably, the pivot axis is parallel or coaxial with the longitudinal axis of the bore. This makes it possible inter alia to form the opening into the bore opening as a longitudinal opening, which also preferably extends parallel to the longitudinal axis of the bore. The longitudinal opening then makes it possible to introduce the inner conductor during assembly of the connector over its entire length simultaneously from the side and in particular via a parallel displacement in the bore.

In a preferred embodiment of the connector according to the invention can be provided that the cover during assembly of the Connector, ie when the insulating is introduced into the outer conductor, automatically in the second position in which it covers the opening, is brought. For this purpose, the outer conductor may have a mounting opening, through which the insulating part can be introduced into this, wherein the arrangement of the mounting opening and the cover is such that the cover is moved by the introduction of the insulating part in the outer conductor in the second position.

In this case, the introduction of the insulating part in the outer conductor preferably from the side (relative to a longitudinal axis of the connector in the region of the cover) take place. The outer conductor of the connector according to the invention, for example, (at least) in that region in which it receives the cover of the insulating part, have a U-shaped cross-section.

Such a cross-sectional shape of the outer conductor may i.a. be advantageously combined with an insulating part having at least two, preferably four parallel bores (for a corresponding number of inner conductors), wherein the opening into the holes openings extend to two sides of the body and the two sides of the body in each case one Cover is assigned. In this case, the two sides of the base body may preferably be formed mirror-symmetrically, so that a double-E-shaped cross-section (ie with a central longitudinal web and three these preferably perpendicular crossing transverse webs, one of which centrally and two end sides of the longitudinal web are arranged) of the main body of the Isolierteils can result. The two covers (which may preferably be arranged at the free ends of an outer crosspiece in a double-E-shaped cross-sectional shape) can then by contact with the outer legs of the cross-sectionally U-shaped outer conductor when plugging into the outer conductor in the respective second Position to be moved.

The connector according to the invention may have a plug-side end and a cable-side end, the connection of the longitudinal direction and thus defining the longitudinal axis of the connector. Preferably, it can then be provided that the mounting opening of the outer conductor is arranged such that the insulating part can be introduced by a movement in the direction of alignment of the longitudinal axis at the plug-side end in the outer conductor. This allows an embodiment of the connector, in which the outer conductor is formed completely closed in the region of the plug-side end. This may be particularly advantageous if the outer conductor is provided in this area as a socket-shaped plug-in element of a plug connection formed with a complementary mating connector (or the outer conductor thereof).

In a connector which is designed as an angle connector with a (preferably 90 °) angled longitudinal axis, then a lateral introduction of the cover (s) having portion of the insulating part in the there preferably U-shaped outer conductor may be provided when the cover (en) is provided in the region of the cable end, where these due to the connection of the / the inner conductor (s) with (one) regularly consisting of individual wires inner conductor (s) of a cable by eg Crimping is / are particularly advantageous.

In a straight connector, however, the forced movement of the cover (s) from the first to the second position can be achieved by arranging the pivot axis (s) of the cover (s) obliquely with respect to the direction of movement of the insulating member when inserted into the outer conductor. are and / or these on (a) correspondingly inclined edge (s) or surface (s) of the outer conductor slides / -n.

Fig. 1:

einen erfindungsgemäßen Steckverbinder in einer ersten perspektivischen Ansicht;

Fig. 2:

den Steckverbinder in einer zweiten perspektivischen Ansicht;

Fig. 3:

einen Querschnitt durch das kabelseitige Ende des Steckverbinders;

Fig. 4:

in einer perspektivischen Ansicht die Innenleiter und das Isolierteil des Steckverbinders mit den Abdeckungen in ihrer zweiten Stellung;

Fig. 5:

in einer perspektivischen Ansicht die Innenleiter und das Isolierteil des Steckverbinders mit den Abdeckungen in ihrer ersten Stellung; und

Fig. 6:

einen Querschnitt durch die kabelseitigen Enden des Isolierteils und der Innenleiter mit den Abdeckungen in der ersten Stellung.

The invention will be explained in more detail with reference to an embodiment shown in the drawings. In the drawings shows:

Fig. 1:

a connector according to the invention in a first perspective view;

Fig. 2:

the connector in a second perspective view;

3:

a cross section through the cable end of the connector;

4:

in a perspective view of the inner conductor and the insulating part of the connector with the covers in its second position;

Fig. 5:

in a perspective view of the inner conductor and the insulating part of the connector with the covers in their first position; and

Fig. 6:

a cross section through the cable-side ends of the insulating part and the inner conductor with the covers in the first position.

The connector shown in the drawings is designed as an angle connector. This comprises a plug-side end as part of a plug-side portion 1, which is designed to form a plug connection with a complementary mating connector (not shown). Furthermore, the connector still comprises a cable-side end as part of a cable-side portion 2, which is provided for connecting a cable (not shown). The plug-side section 1 and the cable-side section 2 are at a 90 ° angle to each other. Accordingly, the plug-side end of the cable-side end connecting longitudinal axis of the connector also angled by 90 °.

The connector comprises an integrally formed insulating part. This is formed as an injection molded part of an electrically insulating plastic. A base body 3 of the insulating part has an angled course following the course of the connector and forms a plurality of (four in total) holes 4, which are more or less closed and interrupted in the region of the bend (the holes can thus also be spaced apart from one another Partial holes exist) - extend over the entire length of the insulating part. The holes 4 have in cross section a square arrangement within the base body 3. This corresponds to the usual arrangement of the four inner conductors used in HSD connectors. An inventive connector may be provided in particular as a HSD connector.

In the cable-side section 2 of the insulating part, the bores 4 are formed closed by more than 180 ° and in each case pass radially into a slot-shaped opening 5. A corresponding embodiment of the holes 4 can be found in a part of the plug-side section 1 of the insulating part. Completely closed, the holes 4 are only in the region of the plug-side end of the insulating part.

By the lateral opening of the holes 4 over the entire length (with the exception of the plug-side end of the insulating part), in each case an inner conductor 6 can be introduced into each of the holes 4 from the side. Due to the shorter length of the inner conductor 6 in comparison to the insulating part, the completely closed configuration of the bores 4 at the plug-side end of the insulating part does not hinder this insertion.

The inner conductors 6 are held positively in the holes 4 by a kind of snap connection is formed between these and holding portions 7 of the holes in the plug-side portion 1 of the insulating part. For this purpose, the width of the respective slot-shaped opening 5 at the transition into the holding section 7 of the individual holes 4 is slightly smaller than the diameter of the associated portion of the respective inner conductor 6. The inner conductor 6 itself and / or the insulating in the holding sections are thus when introducing the inner conductor 6 temporarily elastically deformed.

The individual inner conductors 6 are formed as stamped bending components of an electrically conductive, metallic sheet. In their plug-in sections 1, the inner conductors 6 are bent over in such a way that they have a (nearly) have closed (circular in cross-section) tubular shape. As a result, these can advantageously serve as a socket-shaped plug-in elements of the connector, can be plugged into the pin-shaped plug-in elements of inner conductors of a complementary mating connector. In the bend of the connector, the inner conductor 6 are formed in the form of simple tabs. As a result, these can be bent well into a bend following the curved course. In the cable-side sections 2, the inner conductors 6 form two successively arranged (almost) closed tubular sections 8, 9. The (starting from the curved extending tab) first tubular portion 8 of each inner conductor 6 has a possible circular cross section and thereby ensures a largely backlash-free fit of the inner conductor 6 in the corresponding portion of the associated bore 4 of the insulating part. Optionally, the formation of a snap connection according to the holding portion 7 of the plug-side portion 1 of the insulating part can be formed here as well. The second tubular portion 9 forming tabs of the respective inner conductor 6, however, are more curved. As a result, they can be bent further in a simple manner in order to produce a crimp connection with the inner conductors of a cable (not shown) consisting of individual wires.

When the crimped connection is produced, it may happen that some of the individual wires are not detected and thus are arranged outside the second sections 9 of the inner conductors 6 of the connector. In order to avoid that there is a contact of these individual wires with an outer conductor 10 surrounding the insulating part, the insulating part on two flap-shaped covers 11, which are integrally connected to the base body 3 and in the mounted state of the connector, the slot-shaped, in the holes. 4 obscure opening openings 5 in the corresponding sections.

The FIGS. 5 and 6 show the covers 11 in a first position in which they do not obscure the slot-shaped openings 5. The insulating part is made with the covers 11 in this position.

When mounting the connector, the covers, however, in the in the Fig. 2 to 4 shown second position, which is accompanied by a local deformation of the covers 11 along deformation lines extending in the transitions of the covers 11 to the base body 3 parallel to the longitudinal axis of the connector in this area. This deformation can be elastic and / or plastic type. In the second position, the slot-shaped openings 5 are covered by the covers 11, whereby a contact of not detected by the crimps strands with the outer conductor 10 is avoided.

For mounting the connector, the inner conductor 6 are first introduced into the holes 4 of the insulating part and then inserted this unit in the outer conductor 10. This insertion takes place in the direction of the longitudinal axis of the connector in the plug-side section 1. The side opposite the plug-side end of the outer conductor 10 is provided with a corresponding mounting hole 12. Due to the bending of the connector, the introduction of the unit of insulating part and inner conductors 6 in the cable-side section 2 takes place from the side. In this case, the covers 11, which are still in the first position, abut against the end faces of the outer legs of the outer conductor 10 provided with a U-shaped cross section in this section and are thereby forced into the second position. The covering of the slot-shaped openings 5 in the corresponding section of the insulating part thus takes place automatically by its introduction into the outer conductor 10. An additional assembly effort is not associated with it.

In the portion of the base body 3, in which it is connected to the covers 11, this has a double-E-shaped cross-section, ie this is formed by a central longitudinal web and three transverse webs, one of the longitudinal web centered and the other two cross at the end. The covers 11 are connected at one end to one of the outer transverse webs. The pivoting of the covers takes place around almost 90 °. After pivoting, the covers 11 bear on the middle and the other of the outer transverse webs.

After introducing the unit consisting of the insulating part and the inner conductors 6 into the outer conductor 10, the mounting opening 12 of the outer conductor is still closed by a suitable cover (not shown). This cover also includes the second half of a tubular fitting 13 of the outer conductor 10, which is intended to externally enclose an outer conductor of the cable, whereby the electrical connection is made with the outer conductor of the connector. In addition, the connector 13 improves the stability of the connection between the cable and connector.

In the plug-side section 1, the formed of an electrically conductive material outer conductor 10 is formed as a socket-shaped plug-in element into which a corresponding plug-in element of the complementary mating connector can be inserted. Longitudinal slots 14 allow a good radial elasticity.

Instead of a solid, at the same time a housing of the connector forming outer conductor, as provided in the present embodiment, of course, a arranged in a preferably electrically insulating housing outer conductor can be used.

Claims (7)

1. Insertion-type connector having at least one inner conductor (6), one outer conductor (10) and one insulating part having a main body (3) having a bore (4) to receive the inner conductor (6) and having an opening (5) which opens into the bore (4) in the radial direction, via which opening (5) the inner conductor (6) can be introduced into the bore (4), in which a cover (11) connected to the main body (3), which leaves the opening (5) open in a first position and covers up the opening (5) in a second position and which is movable from the first position to the second on an axis of pivot which extends in the direction defined by the longitudinal axis of the bore (4), the outer conductor (10) having an assembly opening (12) characterised in that the insulating part can be introduced into it, the arrangement of the assembly opening (12) and the cover (11) being such that the cover (11) is moved to the second position by the introduction of the insulating part into the outer conductor (10).
2. Insertion-type connector according to claim 1, characterised in that the cover (11) is connected to the main body (3) in one piece.
3. Insertion-type connector according to claim 1 or 2, characterised in that it is produced with the cover (11) in the first position, and the movement of the cover (11) to the second position involves an at least local deformation of the cover (11).
4. Insertion-type connector according to one of the preceding claims, characterised by at least two, and preferably four, bores (4) extending in parallel, with the openings (5) which open into the bores (4) extending to two sides of the main body (3) and with the two sides of the main body (3) each having a cover (11) associated with them.
5. Insertion-type connector according to claim 1, characterised in that the two sides of the main body (3) are formed to have mirror-image symmetry.
6. Insertion-type connector according to one of the preceding claims, characterised in that the outer conductor (10) is of a U-shaped cross-section in the region of the cover (11).
7. Insertion-type connector according to one of the preceding claims, characterised by a longitudinal axis connecting an insertion end and a cable end, the assembly opening (12) in the outer conductor (10) being so arranged that the insulating part can be brought into the outer conductor (10) by a movement in the direction in which the longitudinal axis is aligned at the insertion end.

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