FR2528242A1 - COLLECTOR PINS FOR PRINTED CIRCUIT BOARDS - Google Patents

Abstract

THE OBJECT OF THE INVENTION IS A METAL CONNECTING PIN, FOR USE WITH PRINTED CIRCUIT BOARDS PRESENTING METALIZED HOLES THROUGHOUT THEIR HEIGHT. THIS PIN HAS A SHEET PART INTENDED TO BE INSERTED IN THE METALIZED HOLE, A SHEET WHICH INCLUDES A PLURALITY OF BRANCHES EXTENDING, GENERALLY, AXIALLY. ACCORDING TO THE INVENTION ONE OF SUCH BRANCHES 16, 18 HAS A PART 20 DEFORMED OUTWARDS TO COME ELASTICALLY IN CONTACT WITH THE INSIDE FACE OF THE HOLE.

Description

The present invention relates to collector pins for use

  with printed circuit boards and more particularly it relates to such pins for use with printed circuit boards having metallized holes along their length. Some circuit boards employ metallised holes along their entire length, whereby metal layers on the surfaces of the two opposite sides and sometimes also one or more intermediate embedded metal layers may be electrically connected. also to receive metal connector pins which make it possible to ensure the electrical connection with this part of the circuit, for example to act as terminals for receiving connection wires or to receive the connection wires of one or more components of the circuit. circuit. Conventional metal pins therefor included a solid, cylindrical stem portion which was force fitted, i.e. with a serrated fit, into the fully metallized hole, selected as a disadvantage. However, the arrangement of such pins can damage the metal deposit and even completely break the connection between two or more of the metal layers of the board. One of the objects of the invention is to provide a connection pin for use with printed circuit boards having metallized holes throughout their height, which pin is less likely to damage the metal deposit during operation. insertion and extraction. According to the present invention, a metal connector pin, for use with printed circuit boards having metallized holes throughout their height, has a plug portion intended to be formed in the metallized hole, which plug includes a plura - branching of branches extending, in general, axially

  at least one of them having an outwardly deformed portion for resiliently contacting the inner face of the hole. Advantageously, the branches are made by meshing a lonitudlin 31 e in a portion of the initially cylindrical spindle, one of the branches then being bent to form the deformed portion. Preferably, the slot is provided slightly offset from the central longitudinal axis of the spindle, so that the branches are in section of unequal sections, one of the branches being deformed being chosen to be the branch. of section in the smallest section. The pin also has a portion to be connected to one or more of the connection wires or components. Preferably, the latter portion is separated from the plug portion by a shoulder which serves to limit the penetration of the pin. part plug in the hole. The invention will now be described in more detail, by way of example only, with reference to the accompanying drawing in which: Fig. 1 is a perspective view from below and one end of an embodiment of a spindle according to the present invention; Fig. 2 is a perspective view from below and from the opposite end of the pin of Fig. 1; Fig. 3 is a side view of the pin of Figs. 1 and 2; the fic 4 is a view of the end of the pin 30 of Figs 1 to 3; Fig 5 is a view of the opposite end of the pin of Figs 1 i 3; Figure 6 is a side view of a second embodiment of a pin according to the invention; Fig. 3 is a sectional view showing a pin according to the invention inserted into a conventional metallized hole; and

  Figures 9 to 13 are respectively a perspective rear view, a perspective front view, a side view, a rear view and a front view of another embodiment according to the invention. The pin of Figs. 1 to 5 comprises a cylindrical rod 10 which, when the pin is applied to a printed circuit board (not shown), must protrude from the board to receive one or more wires or other terminal By welding, for example, or to receive a detachable connection at will, such as a movable bushing. The rod 10 is connected, by a thickened shoulder 12, to a plug portion 14 which is intended to be introduced into the metallized hole. the plug portion being made by providing a longitudinal slot in an initially cylindrical end portion so as to form two initially parallel arms 16, 18 are uniformly spaced from the width of the slot Preferably the slot is arranged slightly offset from the axis of the branch so that the cross-section of the branch 16 is greater than that of the branch 18 The branch 18 is then folded e, as seen in the drawing, so that it has a permanent outward deformation 20, located approximately mid-length As best seen in FIG. 3, the deformed portion 20 gives the fillet portion 14 in the deformation zone, a local diameter, such that it is slightly greater than that of the metallized hole in which the pin is to be introduced, so that when the plug portion is in - 30 troduced in the hole, the deformed branch 18 is deformed elastically inward and applied on the side of the hole with a force that holds the pin firmly in position, but without causing damage to the deposit The spindle can of course also be easily removed from the hole, again without risk of damage to the metal deposit. If desired, the spindle can then be welded or

  4 is permanently fixed in its inserted position. The shoulder 12 acts, of course, to limit the penetration of the plug portion 14 into the metal hole. The spindle may be made of any suitable metal. For example, it may be brass, in which case the deformation may be obtained by simply folding beyond the elastic limit of the material and no further processing is required. the spindle is made of a material such as beryllium copper for spring, whereas a heat treatment would be required to fix the deformation. The spindle which has just been described thus has the advantage over the known tight-fitting devices that the spindle can be introduced and removed with much lower damage to the metal deposit. Another advantage of the present spindle is that the tolerance on the dimension of the hole in which it can be introduced is less important than in the case of the tight fitting spindles in which the diameter of the hole is critical Thus the need for machining With high tolerance of PCB holes is reduced by the use of the present pin. The spindle shown in FIGS. 6 and 7 differ from those of FIGS. 1 to 5 simply in that the solid rod portion 10 of the previous embodiment is replaced by a pair of branches 22, 24 which together form a bushing of The branches are both bent inward at about their mid-length to form a construction 26 for holding the components in place in the socket. This socket can, for example, facilitate the so-called applications. A choice on the test "by allowing to receive the axial wire of the component to be chosen, the axis of the wire of the selected component 35 being arranged perpendicularly to the axis of the spindle in this case. Other configurations of sockets or rods

  Part 10 may also be used with the plug portion of the present invention. Fig 8 shows a pin 28 according to the invention (which may be for example of the type shown in Figs 1 to 5 or Figs 6 and 7) when it is inserted into a conventional metallised hole In this case, the hole 30 is formed in a card 32 made of three electrically conductive metal layers 34, 36, 38 which are electrically separated by means of electrically non-conductive sheets 40, 42, the metal-in-hole 30, A metal-coated surface 44 which electrically connects the metal layers 34, 36, 38. Thus, when the pin 28 is inserted into the hole 30, it becomes electrically connected to all three layers 34, 36, 38. The pin of FIGS. 9 to 13 differs from that of Figs 1 to 8 in that it comprises two deformed arms 50a, 50b disposed on opposite sides respectively of an elongated central lug 52 The lug comprises a rod portion 52a of section r and an outer end portion 52b of circular section, the latter providing a receiving place for connection to other components as desired.

Claims (8)

claims   1. Metal connector pin, for use with cards? printed circuit having metallised holes over their entire height which comprises a plug portion intended to be inserted into the metallised hole, which plug comprises a plurality of axially extending branches axially, characterized in that one Said branches 16, 18; 50a, 50b, 52 has an outwardly deformed portion 20 for resiliently engaging the inner face 10 of the hole.   The connector pin of claim 1, wherein the legs 16, 18 are made by providing a longitudinal slot in a portion of the initially cylindrical pin, one of the legs 18 being then bent to form the deformed portion 20.   3. A connector pin according to claim 2, wherein the slot is provided offset slightly with respect to the central longitudinal axis of the pin, so that the branches are in section of unequal sections, one of the branches 18 which is deformed being chosen to be the smallest sectional section branch.   4. Connector pin according to one of claims 1 ~ 3, wherein the pin also comprises a portion 10 (known per se) for connection to one or more son of connection or components, the latter part 10 being separated from the plug portion by a shoulder 12 which serves to limit the penetration of the plug portion into the hole. 30   The connector pin of claim 4, wherein said connecting portion comprises a pair of legs (22, 24) which together define a generally U-shaped bushing, said legs being inwardly inclined about mid length 35 to form a construction for retaining components in place in the socket .CLMF: The connector pin of claim 1, wherein two deformed branches 50a, 50b whose deformations 20 are directed in opposite directions to contact opposite sides of the hole.   The connector pin of claim 6, wherein said folded limbs 50a, 50b are disposed on opposite sides of a third straight leg 52 disposed on the longitudinal axis of the connector pin.   8. Connector pin according to claim 7, wherein the third leg 52 has an inner shaft portion 52a of rectangular section and an outer portion 52b of circular section.