DE10107630B4 - Pin header and sensor system for motor vehicles with such pin header - Google Patents

Abstract

Pin header, a) with several electrical contact pins (2, 2 ') arranged next to one another in a row, b) the contact pins being connected to one another via an insulation element, c) the insulation element being designed as a molded body (4) and the contact pins being perpendicular in the direction of arrangement are arranged on at least one free leg (5, 6) of the molded body, characterized in that the insulation element is designed as a U-shaped molded body (4), wherein the contact pins in the direction of assembly are perpendicular to the two free legs (5, 6) of the Shaped body are arranged that the free ends of the contact pins on the one free leg face away from each other in relation to the free ends of the contact pins on the second free leg.

Description

The invention relates to a pin header according to the preamble of claim 1, in particular a pin header, with a plurality of juxtaposed in a row electrical contact pins. Such pin headers are from the utility model DE 94 10 919 U1 or the DE 199 28 565 A1 known.

In these pin headers, the individual pins are arranged in a row with a certain fixed pin spacing to each other in a plastic strip. The pins are respectively on both sides of the plastic strip, wherein the one side of the pins, for example, inserted into corresponding holes in a circuit board and soldered there with solder paths. The other pin side can serve as a connection or connection side for a corresponding female connector.

These known pin headers have the disadvantage that a variation of the distance of the parts to be joined is not possible or only in the restricted frame. In addition, from the DE 37 36 025 C1 a multiple connector for connecting two circuit boards known. The connector has two female headers soldered to the respective circuit board, which are connected via a two-sided header. A variation of the distance between the two circuit boards is also not possible.

pamphlet DE 195 17 977 A1 describes an electronic component for surface mounting (SMT), which comprises an electrically insulated support member which is contacted by means of a pin-shaped contact part with an electronic component, wherein the contact part for pressing against a further printed circuit board is spring-like.

In DE 197 56 345 A1 a contacting arrangement is proposed, comprising a Kontaktierungsbrücke with two legs of contact pins, wherein each leg is contacted by one of two printed circuit boards.

Utility Model DE 298 12 524 U1 discloses a device for SMD surface mounting on a support member having arranged in rows contact elements, which are mounted embedded over a partial length and with which the support member is formed connectable to another device.

pamphlet DE 195 45 481 A1 describes an electronic device having a terminal assembly and a circuit board, which are interconnected and contacted by means of connecting parts, wherein these connecting parts are dimensionally stable and plug-in elements having parts.

The invention is therefore the object of developing a pin header of the type mentioned in that it allows a relative movement between two components and can be used for contacting between two components.

This object is achieved by the pin header according to claim 1 and by the sensor system according to claim 7.

The pin strip according to the invention thus has the significant advantage that due to the insulation element, the distance between z. B. two printed circuit boards can be varied within certain limits, since the arranged on the free leg of the U-shaped body pins are resiliently held on the leg. This makes it possible, for example, to arrange a circuit board vibration-damped in a housing and to connect via the pin header according to the invention with a terminal side of a fixed component, such as another circuit board.

In a very particularly preferred embodiment, a plurality of electrical contact pins arranged in a row are provided on each free leg of the U-shaped body, which have press-in zones. The two-sided pin strip thereby enables a row of contact pins to be provided on each free leg, which project substantially perpendicularly from the surface, particularly advantageously to position two printed circuit boards with one another.

In this case, the position of the circuit boards to each other via a force-path dependent press-fitting of the pin header is set with relatively high accuracy. Via the contact pins with the press-in zones and the U-shaped body a spring effect is achieved by each of the two rows of contact pins are resiliently arranged over the free legs of the U-shaped body. The spring action of the contact pin rows can be variably adapted to the changes in the distance of the components to be connected in accordance with the geometric shape, such as the contact pin length, the contact pin thickness and the material of the contact pins, and the leg length of the U-shaped body and the material and the strength of the plastic extrusion , The plastic extrusion has the task of connecting the pins to a pin header and electrically isolate each other, as well as to attenuate the spring action of the pin header if necessary. Preferably, the contact pins are designed as curved components so that on the free legs opposite pins in an electrical Connection with each other. Opposite contact pins, with their provided at each secant from the free legs protruding ends Einpresszonen are einstuckig formed as a bending part. The contact pins are bent so that the geometric shape of the Verbidungsteile the U-shape of the body follows, wherein the connecting part extends completely or only partially within the plastic extrusion.

An embodiment is shown in the drawing and will be described in more detail below.

Show it:

1 a pin header with U-shaped body according to the invention

2 the connection of two printed circuit boards with inventive pin headers.

3 the connection of two printed circuit boards with inventive pin headers in an angular position.

The 1 shows a perspective view of a pin header 1 in which several pens 2 are arranged side by side in a row. Every contact pin 2 . 2 ' has a press-in zone at at least one end 3 on. The bent contact pins 2 . 2 ' are in a U-shaped plastic body 4 arranged, wherein the plastic body 4 every contact pin 2 . 2 ' the contact pin row at least at the press-in zones 3 associated end 8th encloses and thus keeps in its predefined position. Every pin 2 . 2 ' is inside the U-shaped body 4 formed angled and connects the one row of pins 2 with the other row of contact pins 2 ' via a connecting part assigned to each contact pin 9 , Preferably, each contact pin 2 . 2 ' in each case a connection part running completely or partially within the plastic extrusion coating 9 in one piece with each contact pin 2 . 2 ' is connected, so that each contact pin of the U-shaped formation of the body 4 essentially follows with its geometric shape.

The contact pin row with the contact pins 2 . 2 ' is arranged in the U-shaped body that the contact pins 2 . 2 ' with the press-in zones of the free thighs 5 and 6 of the U-shaped body protrude substantially perpendicular. The free thighs 5 and 6 connecting bridge 7 can in his strength against the thighs 5 and 6 be formed differently and, as in 1 shown, the connecting parts 9 surround. Of course, the connecting parts 9 ' also inside the free thighs 5 . 6 run.

Because of the free thighs 5 and 6 projecting pins with the press-fit 3 a spring effect of the pin header is achieved, so that the distance between the free legs 5 and 6 can be varied within certain limits. The spring effect can be selected by the choice of material, the material thickness, the leg length, the contact pins 2 . 2 ' as well as the material and the material thickness of the U-shaped body vary within certain limits.

The formation of the angled molded body 4 may of course be V-shaped or have another shape, preferably having two free legs.

In 2 is the connection of two printed circuit boards 10 and 11 represented with the pin header described above. The two-sided pin header is preferably used in a sensor system for motor vehicles. To press in the contact pins in the openings of the circuit boards is an auxiliary tool between the two free legs 5 and 6 printed, whereby the press-in force can be absorbed. Preferred are on the one circuit board 10 Sensors, such as rotation rate sensors, acceleration sensors u. Like. Arranged for a motor vehicle, while on the other circuit board 11 Signal processing elements or circuits and the power supply are provided. The spring action of the pin header allows the PCB 10 with the sensors vibration damped in a housing to arrange and the circuit board 11 z. B. to fix in a fixed camp. In this case, via the displacement-force-dependent positioning by means of the press-in a relatively accurate - namely essentially parallel - position 12 the circuit boards 10 . 11 achieved, which is especially for the arrangement of gyroscopes essential for a vehicle dynamics control. According to another exemplary embodiment 3 , are the circuit boards 10 . 11 over different contact pin lengths 23 . 24 the respective pin headers 20 . 21 in a predetermined angular position 22 positioned to each other. The in the direction perpendicular to at least one free leg 5 . 6 respectively. 5 ' . 6 of the molding 4 arranged contact pins have an equal free length 25 on. The at an angle 22 mutually positioned printed circuit boards 10 . 11 allow additional installation positions of the vehicle dynamics controller (electronics and hydraulics) in a vehicle, with parallel alignment of the circuit board containing the sensors 10 , The angular position 22 can also be applied to a further solid angle by both pin headers rise in their longitudinal sides. The contact pin length 25 the perpendicular to the legs of the molding 4 arranged contact pins can be different according to a further embodiment, z. B. be formed ascending in the direction of arrangement. Thus, an inclination angle is formed around a further spatial axis, in which the printed circuit boards 10 . 11 can be arranged to each other.

Claims (10)

Pin header, a) with a plurality of juxtaposed in a row electrical contact pins ( 2 . 2 ' ), b) wherein the contact pins are connected to one another via an insulating element, wherein c) the insulating element as a molded body ( 4 ) is formed and the contact pins in the mounting direction perpendicular to at least one free leg ( 5 . 6 ) are arranged of the shaped body, characterized in that the insulating element as a U-shaped molding ( 4 ) is formed, wherein the contact pins in the mounting direction so perpendicular to the two free legs ( 5 . 6 ) are arranged of the shaped body, that the free ends of the contact pins on the one free leg with respect to the free ends of the contact pins on the second free leg away from each other. Pin strip according to claim 1, characterized in that arranged on the second free leg of the shaped body a plurality of arranged in a row electrical contact pins. Pin strip according to claim 1 or 2, characterized in that the contact pins have on their projecting from the free legs contacts Einpresszonen. Pin strip according to claim 2 or 3, characterized in that the contact pins are designed as bent components so that on the free legs opposite pins are in an electrical connection and are surrounded by an electrically non-conductive U-shaped plastic encapsulation. Pin strip according to claim 4, characterized in that opposite pins are integrally formed as a bent part with two press-in zones. Pin strip according to one of claims 2 to 5, characterized in that each of the two rows of contact pins is resilient. A sensor system for motor vehicles, comprising a sensor-receiving first printed circuit board and a second printed circuit board receiving at least signal-processing elements, characterized by a connection of the first ( 10 ) with the second circuit board ( 11 ) with a pin header according to one of claims 1 to 6. Sensor system according to claim 7, characterized in that the first printed circuit board ( 10 ) resiliently with the second circuit board ( 11 ) connected is. Sensor system according to claim 7 or 8, characterized in that the printed circuit boards ( 10 . 11 ) via press-fit contacts ( 3 ) in a predetermined position, preferably parallel ( 12 ) are positioned to each other. Sensor system according to one of claims 7 to 9, characterized in that the printed circuit boards ( 10 . 11 ) over different contact pin lengths of the respective pin headers ( 20 . 21 ) in a predetermined angular position ( 22 ) are positioned to each other.

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