EP2673847B1 - Direct plug connector for making direct electrical contact with a printed circuit board - Google Patents

Description

The invention is based on a direct plug connector for the direct electrical contacting of contact surfaces on a printed circuit board according to the preamble of claim 1.

Are known control devices that are mounted in the vehicle in various ways and then on the connectors (harness connector) are plugged. The control devices usually consist of a printed circuit board on which electronic components are placed, and a housing. In motor control devices, a male connector is usually mounted on the circuit board to make the electrical connection between a harness connector and the circuit board. The male connector thus represents an additional component in the assembly of the control unit. There are also so-called direct connectors are known in which the male connector is omitted and the individual poles of the wiring harness are contacted directly on the circuit board. For this purpose, electrical contact surfaces ("Kontaktlands") are provided on the circuit board, which are contacted by contact elements of the direct connector.

FIGS. 1a-1c show two such known direct connector 101 to the reversible electric direct contacting of contact surfaces 102 on a circuit board 103. Each edge connector 101 includes a connector housing 104 with a number of adjacent chambers 105, a plurality of contact elements 106, each in the chambers 105 to the electrical direct contacting of the contact surfaces 102 are arranged and electrical connection cable 107, which are each electrically connected to their stripped cable ends 108 to the contact elements 106. The isolated cable ends 109 of the connection cables 107 adjoining the stripped cable ends 108 lie in the same plane and in each case against one another, whereby the smallest possible periodic row spacing ("grid spacing") A of the contact elements 106 is fixed to the cable diameter B of the insulated connection cables 107. For example, for a connection cable 107 with a cable outer diameter of 1.3 mm, for a contact element 106 with a contact width of 1.1 mm, for a connector housing 104 with 0.3 mm thick chamber partitions and at a clearance of 0.1 mm, a grid dimension of 1.7mm.

In contrast, it is the object of the invention to further reduce the pitch in a direct connector of the type mentioned.

Advantages of the invention

The object is achieved by a direct connector with the features of claim 1.

According to the invention, the insulated cable ends of the connection cables, which adjoin the stripped cable ends, of adjacent contact elements are not arranged in the same plane, but offset in height with respect to one another with mutual overlap. The overlap is chosen smaller than twice the wall thickness of the insulation sheath of the connection cable, so that adjacent stripped cable ends do not touch. Thus, in the example given above for a connection cable with a cable outer diameter of 1.3mm, for a contact element with a contact width of 1.1mm, for a connector housing with 0.3mm thick chamber partitions and at a game of 0.1mm a pitch of only 1.5mm, so a reduction of the grid size by about 10% or by about 0.2mm per pole.

Further advantages and advantageous embodiments of the subject invention are the description, the drawings and claims removed.

drawings

Fign. 1a-1c

zwei Direktsteckverbinder nach dem Stand der Technik zur beidseitigen Direktkontaktierung einer Leiterplatte in einer Querschnittansicht (Fig. 1 a), in einer Draufsicht (Fig. 1 b) auf die Kontaktierseite eines Direktsteckverbinders und in einer Seitenansicht (Fig. 1 c);

Fign. 2a-2c

zwei erfindungsgemäße Direktsteckverbinder zur beidseitigen Direktkontaktierung einer Leiterplatte in einer Querschnittansicht (Fig. 2a), in einer Draufsicht (Fig. 2b) auf die Kontaktierseite eines Direktsteckverbinders und in einer Seitenansicht (Fig. 2c);

Fign. 3, 4

jeweils zwei modifizierte Kontaktelemente für den in Fig. 2 gezeigten erfindungsgemäßen Direktsteckverbinder in einer Seitenansicht; und.

Fig. 5

zwei erfindungsgemäße Direktsteckverbinder, von denen der eine eine Isolationscrimpverbindung aufweist, in einer Seitenansicht analog zu Fig. 2c.

The invention will be explained in more detail with reference to several exemplary embodiments reproduced in the drawing by way of example. Show it:

FIGS. 1a-1c

Two direct connectors according to the prior art for double-sided direct contacting of a printed circuit board in a cross-sectional view ( Fig. 1 a) in a plan view ( Fig. 1 b) on the Kontaktierseite a direct connector and in a side view ( Fig. 1 c) ;

FIGS. 2a-2c

two direct plug-in connectors according to the invention for double-sided direct contacting of a printed circuit board in a cross-sectional view ( Fig. 2a ), in a plan view ( Fig. 2b ) on the Kontaktierseite a direct connector and in a side view ( Fig. 2c );

FIGS. 3, 4

two modified contact elements for the in Fig. 2 shown direct connector according to the invention in a side view; and.

Fig. 5

two direct connector according to the invention, one of which has an insulation crimp, in a side view analogous to Fig. 2c ,

Description of the embodiments

The two in FIGS. 2a-2c shown direct connector 1 is used for both sides electrical direct contacting of contact surfaces 2 on a circuit board . 3

Each direct connector 1 comprises a connector housing (contact holder) 4 with a series of adjacent chambers 5, a plurality of contact elements 6, which are respectively disposed in the chambers 5 to the electrical direct contacting of the contact surfaces 2 and a plurality of electrical connection cable 7 with their stripped ends 8 are each electrically connected to the contact elements 6.

As in particular in FIGS. 2a and 2c shown, the isolated cable ends 9a, 9b adjoining the stripped cable ends 8 adjacent cable 7 are not in the same plane, but in the direction 10 perpendicular to the contact elements 6 and the circuit board 3 each offset in height and each with a mutual overlap eleventh arranged. The overlap 11 is smaller than twice the wall thickness of the insulation sheath of the connecting cable 7, so that adjacent stripped cable ends 8 do not touch. Due to the overlap 11 is geometrically due to the row spacing ("pitch") A of the contact elements 6 smaller than the outer diameter B of the insulated connection cable 7. To form the height offset the insulated cable ends 9a, 9b of adjacent connection cable 7 are tilted against each other, namely alternately to one and on the other side, so in relation to the circuit board 3 alternately upwards and downwards. As in Fig. 2a shown, the insulated cable ends 9a, 9b of adjacent connection cable 7 are led out alternately in two different rows from the connector housing 4.

In the identical contact elements 6 of Fig. 2 the alternating tilting of the insulated cable ends 9a, 9b due to the bendability of the stripped cable ends (strands) 8 and through corresponding cable guides 12 in the connector housing 4 itself and / or, as in Fig. 2c indicated schematically, achieved by a sealing mat 13 which is penetrated alternately at different heights of the connecting cables 7.

Instead of like in Fig. 2 with identical contact elements 6, the connector housing 4 alternately with the two in Fig. 3 shown contact elements 6a, 6b are fitted. In these structurally identical contact elements 6a, 6b, the height offset of the insulated cable ends 9a, 9b is achieved by fastening the stripped cable ends 8 at one contact element 6a above and at the other contact element 6b below at a connection section (welding lug / crimp section) 14 of the contact elements 6. In this way, the insulated cable ends 9a, 9b can be led out parallel to each other from the connector housing 4. For even greater height offset, as in Fig. 4 shown, the terminal portions 14 of the two contact elements 6a, 6b be bent obliquely upwards and obliquely downwards.

From Fig. 2 this is different in Fig. 5 embodiment shown only in that here in the in Fig. 5 lower direct connector 1, the crimp section 14 comprises the insulated cable end 9a, 9b and thus has an insulation crimp connection.

Claims (9)

1. Direct plug connector (1) for making direct electrical contact with contact areas (2) on a printed circuit board (3), having:

   a plug connector housing (4) with a row of chambers (5) which are arranged next to one another,

   a plurality of contact elements (6; 6a, 6b), which are each arranged in the chambers (5), for making direct electrical contact with the contact areas (2), and

   a plurality of connection cables (7) which, in each case by way of their cable ends (8) which are stripped of insulation, are electrically conductively connected to the contact elements (6; 6a, 6b),

   characterized

   in that the row spacing (A) of the contact elements (6; 6a, 6b) is smaller than the cable diameter (B) of the insulated connection cables (7), and in that the insulated cable ends (9a, 9b) of the connection cables (7) of respectively adjacent contact elements (6; 6a, 6b), which insulated cable ends adjoin the cable ends (8) which are stripped of insulation, are vertically offset in relation to one another in direction (10) perpendicular to the contact elements (6; 6a, 6b) and overlap in this direction (10).
2. Direct plug connector according to Claim 1, characterized in that the insulated cable ends (9a, 9b) of adjacent connection cables (7) are tilted in relation to one another or are arranged with a parallel offset in relation to one another.
3. Direct plug connector according to Claim 1 or 2, characterized in that, for the vertical offset, the cable ends (8) which are stripped of insulation are alternately bent towards one and towards the other side of the contact elements (6).
4. Direct plug connector according to one of the preceding claims, characterized in that the contact elements (6a, 6b) have connection sections (14) to which the insulated cable ends (9a, 9b) are fastened or the cable ends (8) which are stripped of insulation are fastened, in particular welded, and in that the connection sections (14) of adjacent contact elements (6a, 6b) are vertically offset in relation to one another in direction (10) perpendicular to the contact elements (6a, 6b).
5. Direct plug connector according to Claim 4, characterized in that the connection sections (14) of adjacent contact elements (6a, 6b) are alternately directed towards one and towards the other side of the contact elements (6a, 6b).
6. Direct plug connector according to one of the preceding claims, characterized in that the cable ends (8) of adjacent connection cables (7), which cable ends are stripped of insulation, are fastened to mutually opposite sides of the contact elements (6a, 6b).
7. Direct plug connector according to one of the preceding claims, characterized in that the insulated cable ends (9a, 9b) of adjacent connection cables (7) are arranged in at least two vertically offset rows.
8. Direct plug connector according to one of the preceding claims, characterized in that the insulated cable ends (9a, 9b) of adjacent connection cables (7) are routed out of the plug connector housing (4) alternately to one and to the other side of the contact elements (6; 6a, 6b).
9. Direct plug connector according to one of the preceding claims, characterized in that the insulated cable ends (9a, 9b) of adjacent connection cables (7) are routed in the plug connector housing (4) and/or in a sealing mat (13) with a vertical offset.

Images