| US4160573A | 1979-07-10 | |||
| US3434093A | 1969-03-18 | |||
| US3365694A | 1968-01-23 | |||
| US3102767A | 1963-09-03 | |||
| US1877103A | 1932-09-13 | |||
| US2958926A | 1960-11-08 | |||
| US2978800A | 1961-04-11 | |||
| US4066840A | 1978-01-03 |
| 1. | A wire pin connector kit for ribbon cable, comprising: a first member having a plurality of first aper tures therethrough; a second member having a plurality of second apertures therethrough, and adapted to be retained against a first surface of said first member in substantial alignment with "said first member, said first apertures being larger than said second apertures, and adapted to be in substantial alignment with said second apertures when said first member is in substantial alignment with said second member; said first member including a plurality of grooves on said first surface adapted to retain ribbon cable conductors in alignment with said first apertures. |
| 2. | A wire pin connector kit for ribbon cable according to claim 1, wherein: a first surface of said second member includes a plurality of studs protruding therefrom; and said first member includes a plurality of third apertures adapted to receive said studs therethrough. |
| 3. | A wire pin connector for ribbon cable accord¬ ing to claim 2, wherein: said first member has a plurality of fourth apertures therethrough; and said second member includes a plurality of pins protruding" from said first surface, said pins being adapted to be received in said fourth apertures. |
| 4. | A wire pin connector kit for ribbon cable, comprising: a first member having a plurality of first apertures therethrough; OM? a second member having a plurality of second apertures therethrough, said second member adapted to be retained against a first surface of said first member. in substantial alignment with said first member, said second apertures adapted to be in substan¬ tial alignment with said first apertures when said first member and said second member are in substantial alignment; said first apertures being adapted to receive therethrough a forming blade and at least one thickness of a ribbon cable conductor, said ribbon cable conductor being bent to be substantially perpendicular to said first surface; said second apertures being smaller than said first apertures and adapted to be placed in the path of said forming blade, said first surface of said first member including a plurality of grooves adapted to retain at least on said ribbon cable conductor in alignment with one said first aperture. |
| 5. | A wire pin connector kit for ribbon cable according to claim 4, wherein: a first surface of said second member includes a plurality of studs protruding therefrom; and said first member includes a plurality of third apertures there¬ through, said third apertures being adapted to fric tionally receive said studs therethrough; said studs being adapted to at least in part retain said second member against said first member, and adapted to locate and support said wire pin connector upon a mounting surface. |
| 6. | A wire pin connector kit for ribbon cable according to claim 5, wherein: said first surface of said second member include a plurality of pins protruding therefrom, and said first member includes a plurality of fourth apertures therethrough, said apertures being adapted to frictionally receive said pins and at least in part retain said second member against said first mem . |
| 7. | An electrical cable comprising a ribbon cabl including a plurality of parallel conductors and havi a wire pin connector at an end thereof, said wire pin connector comprising: a first member having a plurality of first apertures therethrough; a second planar member; said parallel conductors of said ribbon cable having an uninsulated portion extending for a predete mined distance from the end of said ribbon cable; a portion of at least some of said parallel conductors in said uninsulated portion being bent to be substantially perpendicular to a first surface of said first member and extending through at least some of said first apertures; said ribbon cable being retained between said first surface of said first member and a first surfac of said second planar member adjacent said end of said ribbon cable. |
| 8. | An electrical cable according to claim 7, wherein: said second member includes a plurality of secon apertures therethrough. |
| 9. | An electrical cable according to claim 7, wherein: said portion of said uninsulated portion of said parallel conductors extending through said first apertures is folded into a Ushaped cross section. |
| 10. | An electrical cable according to claim 8, wherein: said first apertures are large than said second apertures. |
| 11. | An electrical cable according to claim 10, wherein: said first member includes a plurality of grooves on said first surface. |
| 12. | An electrical cable according to claim 11, wherein: said first surface of said second member includes, a plurality of studs protruding therefrom, and said first member includes a plurality of third apertures adapted to frictionally receive said studs therethrough. |
| 13. | An electrical cable according to claim 12, wherein: said first member includes a plurality of fourth apertures therethrough; said second member has a plurality of pins pro jecting from said first surface, and said pins are adapted to frictionally engage said third apertures. |
| 14. | An electrical cable comprising a ribbon cable including a plurality of parallel conductors and a wire pin connector at at least one end of said ribbon cable, said wire pin connector comprising: a first member having a plurality of first apertures therethrough; a second member disposed adjacent to said first member; said parallel conductors of said ribbon cable having an uninsulated portion extending for a predeter mined distance from said end of said ribbon cable; a first portion of at least one said conductor of said uninsulated portion being disposed between a first surface of said first member and a first surface of said second member; a second portion of said conductor of said uninsulated portion being bent to be substantially perpendicular to said first member and protruding from one said first aperture; said first member including a plurality of grooves in alignment with said first apertures for retaining at least a portion of said conductor; said, first surface of said second member including a plurality of studs protruding therefrom; said first member including a plurality of third apertures therethrough; ' said studs extending through said third apertures and protruding therefrom. |
| 15. | An electrical cable according to claim 14, wherein: said second portion of said conductor is formed as a Ushaped cross section having a bight and two legs, said legs being in substantial contact with each other. |
| 16. | An electrical cable according to claim 14, wherein: said second member includes a plurality of second apertures therethrough, said second apertures being aligned with said first apertures, and said second apertures being smaller than said first apertures. |
| 17. | An electrical cable according to claim 14, wherein: J?12 ' • said first surface of said second member includes a plurality of pins protruding therefrom; said first member includes a plurality of fourth apertures; and said pins are frictionally engaged in said fourth apertures. |
| 18. | A method of forming a wire pin connector for ribbon cable including a plurality of parallel conductors comprising the steps of: removing the insulation from an end of said ribbon cable to expose said conductors for a predeter¬ mined distance from said end; placing at least a portion of said ribbon cable and said exposed conductors upon a first member having a plurality of first apertures therethrough; fastening a second member to said first member to cover a predetermined portion of said ribbon cable and of said exposed conductors upon said first member; bending a predetermined portion of at least one of said conductors to protrude through at least one said aperture in said first member. |
| 19. | A method of forming a wire pin connector according to claim 18, including the steps of: forming said predetermined portion of said conduc¬ tor protruding through said aperture in said first member into a narrow Ushaped cross section, having two sides and a bight, wherein said sides are substantially in contact with each other. OMPI. |
BACKGROUND OF THE INVENTION
5 This invention relates to electrical connections for planar cable, such as ribbon cable.
The term "ribbon cable" as used herein, is intended to denote a flat cable comprising a plurality of parallel solid or stranded conductors laminated lObetween layers of an insulating material, such as polyvinyl chloride, teflon, or the like. It is often necessary to connect such cable to a printed circuit board or the like. Several ways of making such a conn¬ ection have been used. The individual ribbon cable
15connectors may be soldered to individual conductors on a printed circuit board, a tedious task, and requiring separate mechanical support of the ribbon cable to avoid damaging the printed circuit board or the con-- nections, should the cable be moved. Ribbon cable
20conductors have been soldered or wire wrapped to pins protruding from a dual-inline plug, which mates with a dual-inline-socket of the type used for integrated circuits, which in turn is attached to printed circuit board conductors. It is also known to solder or wire
25wrap ribbon cable conductors to the terminals of a connector, .which fits over the edge of a printed circuit board or mates with another connector mounted on a printed circuit board. The present invention overcomes
30numerous difficulties and deficiencies of the above-mentioned connection techniques.
SUMMARY OF THE INVENTION It is a primary object of the invention to provide improved electrical connection means for connecting ribbon cable conductors to a.printed circuit board or the like..
A further object is to provide an improved elec¬ trical connection wherein the conductor wires form connector pins.
A further object of the invention is to provide a method for connecting ribbon cable conductors to printed circuit boards.
A further object is to provide a termination block for- ribbon cables which is simple, inexpensive, and easy to make and use.
' BRIEF DESCRIPTION OF THE ' DRAWINGS FIG. 1 is an inverted perspective view of a completed wire pin connector termination block for ribbo cable according to the preferred embodiment of the invention.
FIG. 2 is a side-elevational view, partially in section, of a wire pin connector termination block in accordance with the preferred embodiment of the invention. FIG. 3 is a fragmentary side-elevational view, partially in section, showing an alternate.embodiment of a wire pin according to the invention.
• FIG. 4 is a top-elevational view of a first base member according to the preferred embodiment of the invention.
FIG. 5 is a side-elevational view, partially in section, showing the positions of the base member and the ribbon cable conductor prior to the formation of an electrical contact in accordance with the invention. FIG. 6 is a side-elevational view, partially in section, showing a wire-pin connector termination block assembly prior to formation of electrical contacts
( OMP
in accordance with the invention.
FIG. 7 is a side-elevational view, partially in section, of a wire pin connector termination block assembly showing a first step in forming a connector pin in accordance with the invention.
FIG. 8 shows a side-elevational view, partially in section, of a wire pin connector termination block showing a second step in forming a connector pin according to the preferred embodiment of the invention.
FIG. 9 is a side-elevational view, partially in section, of a completed wire pin connector termination block for ribbon cable according to the preferred embodiment of the invention, placed on a printed circuit board.
DESCRIPTION OF THE ' PREFERRED EMBODIMENT FIG. 1 illustrates insulated ribbon cable 1 and a wire pin connector termination block assembly 20 including wire pins 12 protruding from rectangular apertures 4 in first base member 5, and retained in place by second cover member 6. Also visible in FIG. 1 are locating studs 24, assembly pins 8, grooves 7a in base member 5, and spacer bumps 9. For convenience, the same numbering will be used in all figures when possible.
As shown in FIG. 2, the insulation is removed from the conductors 3 of the ribbon cable 1 for a predetermined distance from the end. In the preferred embodiment, alternate uninsulated conductors 3 are cut to a shorter length. Ribbon cable 1 is shown in place in pockets 10 and 11, formed in members 5 and 6. Conductors 3 are shown formed into wire pins 12, protruding from base member 5 through apertures 4, and in contact with side 13 of aperture 4. Assembly pins 8 and locating studs 24 are shown frictionally engaged in apertures 15 and 15a to retain member 6 to member 5, although a glue or adhesive or the like could be used
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in place of frictional engagement of pins 8 and/or studs 24. Note that locating studs 24 are made to protrude further than wire pins 12, and are spaced between wire pins 12 and the edge of the termination block 20, to protect the pins 12 from mechanical damage before assembly, as well as to locate termin¬ ation block 20 correctly on a printed circuit board, and to support and reinforce the connection between the ribbon cable and a printed circuit board. FIG. 3 shows an alternate configuration, wherein conductor 3 is merely deflected through apertures 4, against side 13 of apertures 4, in an unfolded single- pin configuration suitable for soldered connection to printed circuit board conductors, where a wire pin connector termination block with this configuration is acceptable.
FIG. 4 shows the configuration of base member 5. Pocket 10, in cooperation with pocket 11 in cover member 6, provides a positive stop for insulated ribbon cable i } so that it will not be drawn inward as conductors 3 are being formed into wire pins 12. Alternate ones of slots 7b are provided with apertures 4, for formation of wire pins from the alternate conductors that have been cut to a shorter length in accordance with the preferred embodiment of the invention. The remaining conductors are passed through pocket 16 and through slots 7a. Pocket 16 is provided to allow the longer alternate conductors 3 to be aligned with slots 7a, so that wire pins 12 may be arranged symmetrically. It is apparent that pocket 16 could be eliminated, and slots 7a and 7b brought together to form continuous slots for either a symmetrical or offset pattern of wire pins 12, and that this would obviate the need for cutting alternate conductors 3 to a shorter length. FIG. 5 shows a first assembly step in forming a wire pin connector termination block according to the .invention. Ribbon cable 1 is stripped to a predetermined
length to expose conductors 3. Ribbon cable 1 is placed into pocket 10 in base member 5, and a first portion of conductors 3 are layed into grooves 7a and 7b. In
FIG. 6, cover member 6 is shown pressed into place on base member 5, retaining conductors 3 in place. FIG.
7 illustrates a first wire forming operation, where a first forming blade 30 is passed through apertures
4 and 14, aperture 14 being smaller than aperture 4 and serving as a guide for blade 30, forcing a second portion of conductor 3 into a U-shaped form protruding from aperture 4 in base member 5. FIG.
8 illustrates a second wire forming operation according to the invention, wherein a second forming blade 31 contacts the U-shaped formed in conductor 3, to collapse it into a narrow U-shaped wire pin 12. As shown in FIG. 8, completed termination block 20 is placed onto a printed circuit board 21.
It will, therefore, be obvious that, in accor¬ dance with the invention, a ribbon cable can be quickly and easily terminated and fastened to a printed circuit board. While the wire pins 12, or the bent ends of conductors 3 as shown in FIG. 3, may be soldered to printed circuit board conductors, it is also apparent that wire pins 12 may be used to directly engage conventional plated-through holes on conventional printed circuit boards.
As will be apparent, members 5 and 6 must be made from, or at least covered with, an electrical insulator. In the preferred embodiment, members 5 and 6 are made by injection molding of a conventional ther osetting plastic material.
Modifications and additional embodiments of the invention will occur to those skilled in the art, and various modifications and additional embodiments of the invention may be made without departing from the scope of this invention.
Next Patent: DEVICE FOR REPAIRING INSULATION AROUND JOINTS OF ELECTRIC ABLES