EP0471971A1 - Pin-socket unit - Google Patents

Abstract

The pin-socket unit has a pin (3) having two limbs (5) which are approximately parallel to one another, bound an elongated hole (4) formed by stamping out, are sprung towards one another, and are used for pressing into an opening in a printed-circuit board. A shoulder (used to bound the insertion path) of a supporting part (8) is allocated to said limbs. The socket (2) comprises a multiplicity of contact springs (9) which extend approximately, originating in the region of the shoulders, at a distance from the socket axis, to the region of the front pin insertion opening (13). They are at their minimum distance from the socket axis approximately in their central region. Particularly economical production is enabled in that the pin (3) is constructed as a stamped part which is independent of the supporting part (8) having the shoulders which are used for bounding the insertion part, and can be connected to the shoulders via a clamping connecting element (6, 7). In an analogous manner to the pin (3) the pin end (6) comprises two latching limbs (21), in a particularly favourable manner, which bound a clamping elongated hole (20) formed by stamping out, are sprung towards one another and can be inserted into the clamping hole (7). <IMAGE>

Description

The invention relates to a contact pin-contact spring socket assembly, in which the contact pin has two approximately parallel legs that delimit an elongated hole formed by punching out and are resilient and serve to press into an opening in a printed circuit board, one of which serves to limit the insertion path Shoulder is assigned to a carrier part, and in which the contact spring bushing comprises a plurality of contact springs which extend approximately from the region of the shoulder of the carrier part starting at a distance from the socket axis to the region of the front pin insertion opening and approximately in their central region the smallest distance from the Have socket axis.

In a known contact pin contact spring socket assembly of this type according to the earlier application P 39 15 644.3, the contact pin is designed as a one-piece component with the carrier part, which has the shoulder serving to limit the insertion path. This is first produced as a turned part, which comprises the shoulder and a contact pin section protruding therefrom, from which the elongated hole is punched out after the material that is superfluous on both sides has been milled and thus converted into a flat shape in a subsequent punching process. Instead, it is also possible to start from a contact sheet metal strip material with two strip areas of different thickness, namely an area with a thickness corresponding to the diameter of the shoulder and an area with a thickness corresponding to the desired contact pin thickness. A blank is punched out from each of these while simultaneously forming the elongated hole; the shoulder is then formed in a blanking process for this blank. Both production methods are relatively complex and expensive.

It has now been shown that such contact pin contact spring bushing assemblies can be produced in a much simpler manner than before in perfect quality if the contact pin is designed according to the invention as a stamped part which is independent of the carrier part and which has the shoulder which serves to limit the insertion path, and with the shoulder can be connected via a clamping connection element. The carrier part is expediently provided with a clamping hole which is open on the side facing away from the contact spring bushing and into which the contact pin can be inserted with its rear pin end while producing a clamp connection.

A particularly simple design results if the rear pin end of the contact pin has a rectangular, preferably square cross-section and the distance between the diametrically opposite pin edges is matched to the diameter of the clamping bore.

A qualitatively better connection as a result of elastic pin deformation during the insertion process is obtained if two opposite sides of the pin end are provided with an approximately axially parallel curvature directed towards the pin axis. In this way, the outer edge regions can each deform elastically towards the axis of curvature of the curvature during the insertion process.

It has proven to be particularly advantageous in terms of production technology and also with regard to the quality of the connection if the pin end has two approximately parallel, resilient, resilient locking legs which can be inserted into the locking hole and which are analogous to the contact pin and delimit a punched slot.

• Fig. 1 eine schematische Darstellung einer Kontaktstift-Kontaktbuchsen-Einheit nach der Erfindung,
• Fig. 2 eine Seitenansicht einer ersten Kontaktstiftausführung,
• Fig. 3 eine Seitenansicht einer aus der ersten Kontaktstiftausführung weiter entwickelten weiteren Ausführung,
• Fig. 4 eine Seitenansicht einer noch weiteren Kontaktstiftausführung und
• Fig. 5 eine Seitenansicht einer Kontaktstift-Kontaktbuchsen-Baueinheit in größerem Maßstab, teilweise im Schnitt, mit der Kontaktstiftausführung nach Fig.4.

Further details, advantages and features of the invention result from the following description of non-restrictive exemplary embodiments with reference to the drawing, to which express reference is made to all the details described in the text. Show it

• 1 is a schematic representation of a contact pin contact socket unit according to the invention,
• 2 shows a side view of a first contact pin embodiment,
• 3 shows a side view of a further embodiment developed from the first contact pin embodiment,
• Fig. 4 is a side view of yet another contact pin design and
• 5 shows a side view of a contact pin contact socket assembly on a larger scale, partly in section, with the contact pin embodiment according to FIG. 4.

1 and 5 show a contact socket contact pin assembly 1 with a contact spring socket 2 for safe power transmission to or from an inserted into it, not shown in the drawing, plug pin to a mechanically and elastically connected contact pin 3. For fixing Of contact pin contact socket assemblies 1 in openings of an electrical circuit board, not shown in detail, the flat contact pin 3 facing away from the plug insertion end is provided with two approximately parallel legs 5, which are delimited by a punched-out elongated hole 4 and are resilient to one another. These legs 5 end in a pin end 6, which is provided in a central clamping bore 7 in a carrier part 8 with a shoulder 8 of the contact spring bushing 2 serving to limit the insertion path. As can be seen, the ins are in the illustrated embodiment Contact springs 9 inserted inside the socket with their rear end on a cylindrical ring extension 10 which protrudes from the shoulder and has an annular groove 11 at its base. The flanged edge of the socket body 12 of the contact spring socket 2, which is designed in the form of a thin-walled deformable sleeve, engages in this annular groove 11. The edge presses under contact with the shoulder on the shoulder between the contact springs 9 located between it and the annular shoulder 10. Within the spark protection rim formed by a flange with a central pin insertion opening 13, an annular body 14 lies against the flange, the inside diameter of which is selected to be somewhat smaller than the pin insertion opening 13 provided in the socket body 12. The contact springs 9 distributed on the inner circumference, which are fixed in the region of the shoulder, are freely movable with their free ends in an annular gap 15 delimited between the socket body 12 and the annular body 14.

The radially inward curvature of the contact springs 9 illustrated in FIG. 5 is achieved in that the socket body 12 from the outside at two points axially offset with respect to the ring body 14 or the ring extension 10 each with a radially inward distance projecting annular bead 16 or 17 is provided, which abuts the contact springs 9 and elastically deforms them radially inwards. The socket body 12 is provided in the region of each annular bead 16 or 17 with an inner diameter which is smaller than the outer diameter of the annular body 14 supporting the free ends of the contact springs 6, increased by twice the diameter of the contact springs 9.

In the case of the contact socket / contact pin assembly 1 shown in simplified form in FIG. 1, an additional radial indentation 18 is provided in comparison to the embodiment shown in more detail according to FIG 10 to press.

Fig. 2 illustrates the simplest form of the formation of the rear pin end 6 of the contact pin 3. Here, the pin end 6 has a rectangular, preferably square cross section, and the distance between the diametrically opposite pin edges is matched to the diameter of the clamping bore 7. Due to the slight oversizing of the pin edge diagonal distance, the pin edges engage when connecting the contact pin 3 via the pin end 6 into the wall of the clamping bore 7 of the contact spring bushing 2. In this way, a firm hold and also a perfect contact is guaranteed.

The embodiment according to FIG. 3 shows an improved cross-sectional shape of the pin end 6. As indicated in this figure, two opposite sides of the pin end 6 are provided with an approximately axially parallel arch 19 directed towards the pin axis. As a result, the outer edge regions of the pin end 6 are each elastically deformable toward the axis of curvature of the curvature 19 during the insertion process.

A better quality connection of the contact pin 3 with the contact socket 2 due to elastic pin deformation during the insertion process is ensured in the embodiment according to FIGS. 4 and 5. As can be seen, the pin end 6 is provided, analogously to the actual contact pin 3, with a punched-out portion, by means of which two clamping legs 21 delimiting a clamping elongated hole 20 are formed, which spring towards one another when inserted into the clamping bore 7.

Claims (6)

1. Contact pin-contact spring socket assembly, in which the contact pin (3) has two approximately parallel, one formed by punching elongated hole (4) delimiting, resilient, serving for pressing into an opening in a printed circuit board leg (5), one of which limits the insertion path serving shoulder of a support part (8) is assigned, and in which the contact spring bushing (2) comprises a plurality of contact springs (9), starting approximately from the shoulder area of a support part (8) at a distance from the socket axis to the area of extend front pin insertion opening (13) and approximately in its central area have the smallest distance from the socket axis, characterized in that the contact pin (3) is designed as a stamped part which is independent of the carrier part (8) and which serves as a stamping part which serves to limit the insertion path can be connected to the carrier part (8) via a clamping connection element (6, 7). 2. Unit according to claim 1, characterized in that the carrier part (8) with a on the contact spring bushing (2) facing away from the open bore (7) is provided, in which the contact pin (3) with its rear pin end (6) below Production of a clamp connection is insertable. 3. Assembly according to claim 2, characterized in that the rear pin end (6) of the contact pin (3) has a rectangular, preferably square cross-section and the distance of the diametrically opposite pin edges on the diam water the clamping bore (7) is matched (Fig. 2). 4. Unit according to claim 3, characterized in that two opposite sides of the pin end (6) are provided with an approximately axially parallel arch (19) directed towards the pin axis (Fig. 3). 5. Assembly according to claim 1 or 2, characterized in that the pin end (6) analogous to the contact pin (3) two a formed by punching out elongated clamping hole (20) delimiting, resilient to each other, in the clamping bore (7) insertable clamping leg (21).

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