EP0911912B1 - Angled HF coaxial plug connector - Google Patents

Description

The invention relates to an RF coaxial angled connector part, consisting of arranged in a housing on the front Coaxial connector parts - Coaxial connector part module -, on a base, for example a printed circuit board, is attached, in which the coaxial inner conductor in the housing of Coaxial connector module isolated in each case in the the housing inserted, screwed and / or integrated Coaxial outer conductors are used, which is made of metallized Plastic existing housing of the coaxial connector module a large number of contact feet on the bottom edge with stand surfaces representing SMD connections has both the housing attachment on the pad as well as the conductive connection of your SMD connectors serve these connections assigned on the pad, at the metallization of the housing for electrical isolation at least between the metallization of the contact feet with SMD connectors for coaxial inner conductors and the rest Metallization of the housing in electrically separate from each other Metallization areas is divided and at the the conductive connections between the coaxial inner conductor ends on the part of the SMD connections and their SMD connections using insulated metallic inner conductor connectors is brought about.

Such an RF coaxial angled connector part is already stated in the earlier application 197 16 139.1. The design has such a coaxial connector module such monoblocks of known design, such as are known from the literature EP 0555933 B1, the advantage of a much cheaper manufacturing technology Design with a lower overall weight.

The invention has for its object the manufacturing technology Requirements for such a coaxial connector module in its version as an RF coaxial angled connector part through advantageous constructive measures to simplify so that its assembly is fully automatic becomes feasible.

This object is achieved according to the invention in that the inner conductor connectors two each essentially sections arranged perpendicular to each other, namely an inner conductor connecting part and an SMD inner conductor foot have that each perpendicular to the coaxial connector parts aligned, isolated within housing recesses arranged inner conductor connecting parts on your free end of a press-in contact head for a good conductive Connection with the coaxial inner conductors, which have a straight rod shape of the coaxial connector parts assigned to them, that the SMD inner conductor feet of the inner conductor connecting pieces on the floor to the stand areas of the associated ones Extend contact feet and that by suitable Dimensioning of the coaxial connection paths designed in this way between the coaxial connector parts on the front and their bottom-side SMD connections at least approximately constant wave resistance is guaranteed.

With RF coaxial angled connector parts, it is relatively expensive in the metallized plastic housing in the insulating sleeves held right-angled coaxial inner conductor contribute. Are high manufacturing costs in purchase taken, then the right-angled coaxial connector parts in the form of independent units in corresponding Recesses of a common plastic housing used become. Otherwise, the plastic housing for the Insert the right-angled coaxial inner conductor on his Back wall have corresponding insertion openings that after inserting the right-angled coaxial inner conductor with Lids must be closed with a high frequency seal.

The invention is based on the knowledge that the metallized Housing of an HF angle connector part in which the coaxial outer conductors of the different coaxial connection paths are at least partially integrated for insertion the coaxial inner conductor also without such additional Insertion openings. The right-angled coaxial inner conductor can namely in two straight, perpendicular to each other aligned inner conductor sections that are divided when inserted into the housing in a suitable manner be combined to form rectangular coaxial inner conductors.

Appropriate configurations of the subject matter according to the patent claim 1 are specified in the further claims 2 to 15.

In a further development of the invention are in the claims 16 and 17 measures for the fully automatic assembly of the RF right angle connector parts specified.

Fig.1

die perspektivische Darstellung eines Ausführungsbeispieles für einen Koaxial-Steckerteilmodul in Aufsicht auf die Stirnwand,

Fig. 2

eine weitere perspektivische Darstellung des Koaxial-Steckerteilmoduls in Fig. 1 mit Sicht auch auf die Bodenseite,

Fig. 3

eine Explosionsdarstellung des Koaxial-Steckerteilmoduls in den Fig. 1 und 2 in Verbindung mit einem seinem vollautomatischen Zusammenbau dienenden Endlos-Trägerband,

Fig. 4

ein vergrößerter Ausschnitt des Endlos-Trägerbandes in Fig. 3,

Fig. 5

der Schnitt AA des Koaxial-Steckerteilmoduls in Fig. 1,

Fig. 6

der Schnitt BB des Koaxial-Steckerteilmoduls in Fig. 1,

Fig. 7

der Schnitt CC des Koaxial-Steckerteilmoduls in Fig. 1,

Based on a preferred embodiment, which is shown in the drawing, the invention will be explained in more detail below. Mean in the drawing

Fig.1

the perspective view of an embodiment of a coaxial connector part module in supervision of the end wall,

Fig. 2

1 shows a further perspective view of the coaxial connector part module in FIG.

Fig. 3

1 and 2 in connection with an endless carrier tape serving its fully automatic assembly,

Fig. 4

3 shows an enlarged section of the endless carrier belt in FIG. 3,

Fig. 5

the section AA of the coaxial connector part module in Fig. 1,

Fig. 6

the section BB of the coaxial connector part module in Fig. 1,

Fig. 7

the section CC of the coaxial connector part module in Fig. 1,

1 and 2 from a different point of view Embodiment of a coaxial connector module 1 are the free ends of the coaxial inner conductor 2 of the coaxial connector parts 3 designed as sockets 4. Naturally can these sockets 4 also through to them complementary connector pins to be replaced. the coaxial connector part module 1 is on the end wall 5 of its housing 6 Made of metallized plastic with four coaxial connector parts 3 assembled in a row-column arrangement. Of course you can with such RF coaxial angled connector parts with coaxial connector parts 3 in terms of number and arrangement can be varied. The layer thickness of the metallization the housing 6 is at least equal to the depth of penetration to be transmitted via the coaxial connector module 1 electromagnetic waves selected.

The coaxial connector module 1 has contact feet 7 and 8, which in a variety on the outside of the housing 6 in the vicinity of the bottom 9 are arranged. The contact feet 7 and 8 have footprints that are tinnable SMD connections 10 and 11 are executed. They serve both to secure the housing on a base, especially a printed circuit board, as well as the electrical connection of their SMD connections 10 and 11 with these connections assigned on the base.

On the end wall 5 of the housing 6 is in the middle between the coaxial connector parts 3 represent a stop plate-shaped elevation 12 with a hole 13 for a fastening screw available. This gives the opportunity the coaxial connector module 1 additionally with its To attach the end wall 5 to a mounting plate, not shown, the holes for the passage of the coaxial connector parts 3 must have. To be good in this case conductive contact between the mounting plate and the metallization to ensure the housing 6 is a contact plate 14 provided. The contact plate 14 goes at its free End in contact tabs 15 angled slightly upwards.

The contact feet 7 and 8 are on the outside of each other parallel side walls 16 and 17, and the rear wall 18 of the housing 6 are provided and have a larger number each have a comb-like structure. They have a footbridge-like Shape and protrude with their SMD connections 10 and 11 slightly beyond the bottom 9 of the housing 6. Around when connecting the coaxial connector module 1 with a pad for the SMD connections 10 and 11 perfect solder connections ensure it is necessary between all SMD connections 10 and 11 of the contact feet 7 and 8 provide a flatness tolerance of ≤ 0.1 mm.

Through metallization-free strips that close in the ring 19 on the outer sides of the housing 6, the electrical Connection between the outer conductors of the coaxial connector module existing coaxial conductor sections in can be separated in any way. The one in the drawing illustrated embodiment for a coaxial connector module 1 is, as can be clearly seen in FIGS. 1 and 2, the outside metallization unspecified of the housing 6 through the metallization-free strips 19 in divided into three large metallization areas. Through this Only the outer conductors of the coaxial conductor sections are divided, which the two coaxial connector parts 3 in the vicinity of the bottom 9 of the housing 6 are associated with each other electrically connected. Each of the two leaders other coaxial conductor sections through the rest two coaxial connector parts 3 are represented are against compared to the outer conductors of all other coaxial conductor sections isolated. Aside from these through the metallization-free Strip 19 created three large metallization areas must also have the metallized contact feet 8 with their SMD connections 11 from the rest Metallization have separate metallization areas. This is brought about by metallization-free strips 20, which surround the contact feet 8 in a ring and so a separate small metallization area for each contact stand 8 establish.

The metallization-free strips 19 and 20 can be in simply by partially removing the outside metallization of the housing 6 by milling or generate evaporation. It should also be noted that it is basically not necessary to use the whole case 6, including all of the outside of the housing. For example can on the metallization of the parallel to the floor 9 Side wall 21 of the housing 6 is completely dispensed with become. It is also possible only the walls of the housing 6 to metallize as far as for the coaxial connector module 1 coaxial conductor sections to be provided is absolutely necessary.

The arrangement of the contact feet 7 and 8 on the outside the mutually parallel side walls 16 and 17 and the rear wall 18 is for soldering your SMD connectors 10 and 11 on a pad important because of the soldering process used air heat so well to the SMD connections 10 and 11 can be introduced. In addition, in retrospect can be easily checked whether the solder joints are perfect. Furthermore, this arrangement of the contact feet 7 and 8 the advantage that this allows for the attachment of the coaxial connector module 1 optimal conditions on a base are created.

As can be clearly seen in FIG. 2, there are 6 on the bottom of the housing 6 Centering pins 22 are provided, which are placed on a base centering holes assigned to them in the base intervene and in this way the exact mutual Assignment between the SMD connections 10 and 11 of the contact feet 7 and 8 and their connections on the base.

The coaxial connector module shown in FIGS. 1 and 2 1 consists of two main parts, namely the actual housing 6 with the coaxial connector parts 3 and one in the bottom 9 of the housing 6 inserted and locked with the housing 6 Bottom part 23. In the illustrated embodiment are the coaxial outer conductors 24 of the coaxial connector parts 3 metallic sleeves, the recesses 25 of the housing 3 are screwed. These constructive designs of the coaxial connector module 1 are shown in FIG. 3 well recognizable that the fully automatic assembly of the here shown in an exploded view coaxial connector module 1 illustrates.

As shown in FIG. 3, the coaxial inner conductors are straight 2 of the coaxial connector parts 3, held in insulating sleeves 26, can be inserted into the coaxial outer conductor 24 thereof executed. For the fully automatic assembly of the coaxial connector module 1 is made from a stamped metallic Endless carrier tape 27 made use of which in Fig. 3 a section long for the production of two base parts 23 is shown. The metallic endless carrier tape 27 has four inner conductor connecting pieces for each bottom part 23 28 on which the conductive connection between the Coaxial inner conductors 2 of the four coaxial connector parts 3 with the associated SMD connectors 11 on the contact feet 8 manufacture. The inner conductor connectors 28 each consist of two essentially perpendicular to each other arranged sections, namely an inner conductor connecting part 29 and an SMD inner conductor foot 30. Here are the inner conductor connecting parts 29 perpendicular to the Coaxial inner conductors 2 of the coaxial connector parts 3 aligned and at its free end with a press-in contact head 31 Mistake. To illustrate these inner conductor connectors 28 is the cutout AS marked in FIG. 3 of the endless carrier belt 27 again shown enlarged in FIG. 4. The endless carrier tape 27 also has that in the coaxial connector part module 1 provided on its end wall 5 contact plate 14 with the contact tabs 15.

With the help of this endless carrier belt 27, which is in its movement is guided at the edge in position holes 32 continuously the bottom parts 23 by plastic injection molding generated. With every spraying process is in the plane of the endless carrier tape 27 is an insulating carrier plate 33 with four overmolded inner conductor connecting parts 29 in shape of rectangular insulating columns with longitudinal grooves 34 35 and a locking element 36 having a plug-in part 37 manufactured. The plug 37 is in the space between the four insulating support columns 35 are arranged. Like Fig. 3 reveals, the inner conductor connecting parts 29 are complete embedded in the insulating support columns 35. The Insulating pillars only have the clamping slots 38 - see Fig. 4 - the press-in contact heads 31 of the inner conductor connecting parts 29 releasing holes 39 whose funnel-shaped design of the centering of the press-in contact heads 31 rear ends of the coaxial inner conductor to be pressed in 2 serve.

For receiving the from the insulating material support plate 33 with with the insulating material support columns 35 and the plug-in part 37 existing bottom part 23 has the housing 6 of the coaxial connector part module 1 in its bottom 9 a central recess 40, rectangular receiving openings representing four outer conductor sections 41 for the insulating support columns 35 and one another rectangular receiving opening 42 with a counter detent 43 for the plug-in part 37 with the locking element 36. The central one Recess 40, the receiving openings 41 and the receiving opening 42 with the counter detent 43 are shown in FIG. 1 and in the sections shown in FIGS. 5 to 7 AA, BB and CC of Fig. 1 visible.

As soon as a bottom part 23 on the endless carrier belt 27 is completed is, the housing 6 is parallel to its bottom 9 Side wall 21 of a not shown in Fig. 3 Pick & Place machines added, from above onto the bottom part 23 attached and locked with it. For this recording process of the housing 6 by the pick & place machine it is important that the surface of the side wall 21 is sufficient for this is just. Then the coaxial connector parts are assembled 3 instead of the end wall 5 of the housing 6. To the Finally, the housing 6 is cut off with its bottom part 23 from the endless carrier tape 27 and the required Electrical isolation between the inner conductor connectors 28 and the remaining parts of the original endless carrier tape 27th

The section AA of the coaxial connector part module shown in FIG. 5 1 does well with its insulating board 33 in the central recess 4o in the bottom 9 of the housing 6 recognize inserted bottom part 23. the counter detent 43 in the rectangular receiving opening 42 for the plug 37 from a side opening into the receiving opening 42 Recess in which the resilient locking hook existing locking element 36 engages with its locking hook.

In the sections BB and CC shown in FIGS. 6 and 7 of the coaxial connector module 1 in Fig. 1 are the outer conductor function for the inner conductor connecting parts 29 rectangular receiving openings 41 visible. Visible are also those between the coaxial inner conductors 2 of the coaxial connector parts 3 and the press-in contact heads 31 to the Free ends of the inner conductor connecting parts 29 produced conductive connections.

Fig. 6 also shows the screw 44 in the recesses 25 of the housing 6 used coaxial outer conductor 24 of the coaxial connector parts 3. In addition, Fig. 7 leaves the SMD inner conductor feet 30 recognize that with their free ends in the contact stands 8 assigned to them on the part of their SMD connectors 11 are pressed.

Claims (17)

1. An angled HF coaxial plug connector part, comprising on the front coaxial plug parts (3) arranged in a housing (6) and constituting coaxial plug part module (1), which is secured to a support, for example a printed circuit board,
      in which the coaxial internal conductors are each inserted inside the coaxial external conductors which are inserted into, screwed into and/or integrated in the housing (6) such that the coaxial internal conductors are each insulated in the housing (6) of the coaxial plug part module (1),
      in which the housing (6), which is made from metallised synthetic material, of the coaxial plug part module (1) has on the edge of its base a plurality of contact feet (7, 8) having support surfaces which form SMD terminals (10, 11) and serve both to secure the housing to the support and to conductively connect their SMD terminals (10, 11) to terminals associated with these on the support,
      in which the metallisation of the housing (6) is divided up into electrically mutually insulated metallisation regions for the purpose of isolating potential at least between the metallisation of the contact feet (8) with SMD terminals (11) for coaxial internal conductors and the rest of the metallisation of the housing, and
      in which the conductive connections between the ends of the coaxial internal conductors on the side with the SMD terminals (11) and the SMD terminals (11) thereof are brought about by means of insulated metal internal conductor connecting pieces (28),
   characterised in that
      the internal conductor connecting pieces (28) each have two sections arranged substantially mutually perpendicular, namely an internal conductor connecting part (29) and an SMD internal conductor foot (30),
      the internal conductor connecting pieces (28), which are each aligned perpendicular to the coaxial plug parts (3) and are arranged such that they are insulated within housing cutouts, have at their free end a press-in contact head (31) for a properly conductive connection with the coaxial internal conductors (2), which have the shape of a straight rod, of the coaxial plug parts (3) associated therewith,
      the SMD internal conductor feet (30) of the internal conductor connecting pieces (28) extend on the base as far as the support surfaces of the contact feet (8) associated therewith, and
      by suitably dimensioning the coaxial connecting paths that are formed in this way between the front coaxial plug parts (3) and their base SMD terminals (11) an at least approximately constant surge impedance is guaranteed.
2. An angled HF coaxial plug connector part according to Claim 1,
      characterised in that
      the coaxial plug part module (1) comprises two main parts, namely the actual housing (6) with the front coaxial plug parts (3) and a base part (23), which are latched to one another in the joined condition,
      the base part (23) is an insulating material carrier plate (33) for mounting the internal conductor connecting pieces (28),
      the insulating material carrier plate (33) has on its upper side insulating material supporting pillars (35) in which the internal conductor connecting parts (29) are embedded as far as the clamping slots (38) in their press-in contact heads (31),
      additionally at least one plug part (37) with a latching element (36) is provided on the upper side of the insulating material carrier plate (33),
      the housing (6) has in the base (9) a central recess (40) for receiving the insulating material carrier plate (33), receiving openings (41) which form coaxial external conductor sections and are for the insulating supporting pillars (35) having the internal conductor connecting parts (29), and a receiving opening (42) having a counter-latch (43) for the latching element (36) of the at least one plug element (37), and
      when the coaxial plug part module (1) is assembled, the coaxial internal conductors (2) of the coaxial plug parts (3) provided on the end wall (5) of the housing (6) can only be inserted into the coaxial plug part module (1) and properly conductively connected by means of their ends close to the internal conductor connecting parts (29) by pressing in the press-in contact heads (31) thereof once the base part (23) has been joined to the housing (6).
3. An angled HF coaxial plug connector part according to Claim 1 or 2,
      characterised in that
      the receiving openings (41) for the insulating material supporting pillars (35) and of the at least one plug part (37) having a latching element (36) in the base (9) of the housing (6) have a rectangular cross-section,
      the insulating material supporting pillars (35) of the base part (23), which are matched in their cross-section to the rectangular cross-section of their receiving openings (41) in the base (9) of the housing (6), are provided with longitudinal grooves (34) for surge impedance adaptation, and
      the holes (39) in the insulating material supporting pillars (35), which free the clamping slots (38) in the press-in contact heads (31) of the internal conductor connecting parts (29), have the shape of a funnel and serve to centre the ends of the coaxial internal conductors (2) of the coaxial plug parts (3) which are to be pressed into the press-in contact heads (31).
4. An angled HF coaxial plug connector part according to one of the preceding claims,
      characterised in that
      the contact feet (7, 8) are provided on the outside of the housing (6) of the coaxial plug part module (1), on the base of the mutually parallel side walls (16, 17) and the rear wall (18), and project slightly beyond the base part (23) inserted into the housing (6).
5. An angled HF coaxial plug connector part according to one of the preceding claims,
      characterised in that
      the contact feet (7, 8) are in the form of short outer wall extensions in the manner of supporting webs and have, with respect to one another, a comb-type structure on the mutually parallel side walls (16, 17) and the rear wall (18) of the housing (6).
6. An angled HF coaxial plug connector part according to one of the preceding claims,
      characterised in that,
      apart from the metallisation regions of the contact feet (8) for the SMD internal conductor feet (30) of the internal conductor connecting pieces (28), the other metallisation of the housing (6) can also be divided up into further metallisation regions for the purpose of any desired isolation of potential between the coaxial external conductors of the coaxial connecting paths of the coaxial plug part module (1).
7. An angled HF coaxial plug connector part according to one of the preceding claims,
      characterised in that
      the metallisation of the housing (6) of the coaxial plug part module (1) is divided up into electrically mutually insulated metallisation regions by partial linear removal of the metallisation, for example by laser machining.
8. An angled HF coaxial plug connector part according to one of the preceding claims,
      characterised in that
      the coaxial plug parts (3) of the housing (6) of the coaxial plug part module (1), having a plurality of coaxial connecting paths, are arranged in a pattern of rows and columns,
      for the purpose of additional front securing of the housing (6) of the coaxial plug part module (1) to a mounting plate, for example a front plate, at least one plate-shaped elevated portion (12), which forms a stop and has a hole (13) for a securing screw, is provided on an end wall (5) in the central region between the coaxial plug parts (3), and
      furthermore for making a properly conductive contact between the mounting plate and the metallisation of the housing (6) on its end wall, a contact plate (14) having edge contact tabs (15) which are bent slightly forwards towards the mounting plate is attached.
9. An angled HF coaxial plug connector part according to one of the preceding claims,
      characterised in that
      the coaxial external conductors (24) of the coaxial plug parts (3), which are provided on the end wall (5) of the housing (6) of the coaxial plug part module (1), are an integral part of the housing (6).
10. An angled HF coaxial plug connector part according to one of Claims 1 to 8,
       characterised in that
       the coaxial external conductors (24) of the coaxial plug parts (3), which are provided on the end wall (5) of the housing (6) of the coaxial plug part module (1), are metal sleeves which are screwed, pressed or inserted into recesses (25) in the housing (6).
11. An angled HF coaxial plug connector part according to one of the preceding claims,
       characterised in that
       the coaxial internal conductors (2) of the coaxial plug parts (3) are mounted, in insulating material sleeves (26), on the end wall (5) of the housing (6) of the coaxial plug part module (1) in the coaxial external conductors (24) thereof.
12. An angled HF coaxial plug connector part according to one of the preceding claims,
       characterised in that,
       for the purpose of centring the housing (6) of the coaxial plug part module (1) on the support, mutually associated centring means are provided, for example centring pins (22) on the base (9) of the housing (6) and centring holes on the support.
13. An angled HF coaxial plug connector part according to one of the preceding claims,
       characterised in that
       the film thickness of the metallisation of the housing (6) of the coaxial plug part module (1) is at least equal to the depth of penetration of the electromagnetic waves to be transmitted via these.
14. An angled HF coaxial plug connector part according to one of the preceding claims,
       characterised in that
       the housing (6), which is made from metallised synthetic material, of the coaxial plug part module (1) has on its outer sides surface parts which are free of metallisation.
15. An angled HF coaxial plug connector part according to one of the preceding claims,
       characterised in that
       the levelness of the support surfaces of the contact feet which form SMD terminals is 0.1 mm.
16. An angled HF coaxial plug connector part according to one of the preceding claims,
       characterised in that,
       in the course of fully automatic assembly of the coaxial plug part modules (1), the internal conductor connecting pieces (28) are parts of a punched metal endless carrier belt,
       the base parts (23) are continuously prefabricated by plastic injection moulding procedures by means of the endless carrier belt (27) guided in positioning holes (32) on the edge,
       the housings (6) are pushed onto the base parts (23), which have been prefabricated one after the other in this way, and are latched to the base parts (23),
       then mounting of the coaxial plug parts (3) on the end wall (5) of the housing (6) is performed, and
       finally the housings (6), including their base parts (23), are cut off the endless carrier belt (27) and the required isolation of potential between the internal conductor connecting pieces (28) and the other parts of the original endless carrier belt (27) is performed.
17. An angled HF coaxial plug connector part according to Claim 16,
       characterised in that
       the punched metal endless carrier belt (27) additionally has a contact plate (14) with contact tabs (15), which is to be provided on the end wall (5) of the housing (6) of the coaxial plug part module (1).

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