Claims
- 1. A method of joining a terminal of a first electronic device to a conductive area of a second device comprising the following steps:
providing a body, having an opening dimensioned for receiving said body on said terminal, said body having a solder-holding conformation adjacent said opening, with a solder mass held by said conformation, inserting said body opening over said terminal in a position with said solder adjacent to said terminal and said conductive area, and reflowing and thereafter cooling said solder mass to solder said terminal to said conductive area.
- 2. The method of claim 1, wherein said body opening is dimensioned to frictionally engage and retain said body in said position on said terminal.
- 3. The method of claim 1, wherein said solder-holding conformation is adjacent a first side of said opening, said body being provided with a second solder-holding conformation adjacent a second side of said opening, said first side being substantially opposite said second side, said second solder-holding conformation having a second solder mass held thereby, said first and second solder masses being positioned to frictionally engage and retain said body in said position on said terminal.
- 4. The method of claim 1, wherein said body has at least one finger integral with said body and adapted to hold said solder mass against said body.
- 5. The method of claim 1, wherein said body has a pair of fingers, one on each side of said opening, and a solder mass held by each of said fingers adjacent to but not overlying said opening.
- 6. The method of claim 1, wherein said conductive area is an internally plated hole in said second device, and
said solder mass is positioned adjacent said hole.
- 7. The method of claim 1, wherein said conductive area is in a plane substantially perpendicular to said terminal, and
said solder mass is positioned adjacent said area.
- 8. The method of claim 1, wherein said conductive area is in a plane substantially parallel to said terminal, and
said solder mass is positioned adjacent said area.
- 9. The method of claim 1, comprising positioning said body between said first and second devices.
- 10. The method of claim 8, further comprising the following steps:
positioning said terminal in and extending beyond said hole, and thereafter positioning said body on said terminal adjacent said hole.
- 11. The method of claim 1, wherein a solder mass is positioned in each side of but not overlying said opening.
- 12. A method of joining a first electrical device having a terminal to a second electrical device comprising the steps of:
providing a clip having a body, with an opening for receiving said terminal, said opening being dimensioned for frictionally engaging and retaining said clip on said terminal, said body having a solder-holding conformation adjacent said opening with a solder mass held by said conformation, inserting said clip opening over said terminal with said solder mass adjacent to said terminal and frictionally held by said terminal, reflowing and thereafter cooling said solder mass to solder said terminal to said clip, said clip having an extension and soldering a second device to said extension.
- 13. A method of joining a first electrical device having a terminal to a second electrical device comprising the steps of:
providing a clip having a body, with an opening for receiving said terminal, said body having a first solder-holding conformation adjacent a first side of said opening, with a first solder mass held by said conformation, said body also having a second solder-holding conformation adjacent a second side of said opening, said first side being subtantially opposite said second side, said second solder-holding conformation having a second solder mass held thereby, said first and second solder masses being positioned to frictionally engage and retain said body in said position on said terminal. inserting said clip opening over said terminal with said first and second solder masses adjacent to said terminal and frictionally held by said terminal, reflowing and thereafter cooling said solder masses to solder said terminal to said clip, said clip having an extension and soldering a second device to said extension.
- 14. A method of joining an array of terminal pins to a substrate having an array of plated holes comprising the steps of:
providing an elongated strip of material with a longitudinally extending section of said strip providing a carrier strip, said strip having an array of clips integral with said carrier strip and spaced along said carrier strip in correspondence with the spacing of said holes, each said clip having a body portion with an opening for receiving a terminal pin, said openings being dimensioned for frictionally engaging and retaining said clips on said terminal pins, each said body portion having a solder-holding conformation adjacent each said opening with a solder mass held by said conformation, inserting said array of clips over corresponding pins of said array of terminal pins in a position with each said solder mass adjacent to a respective plated hole and with each said clip body being frictionally held by its respective pin in said position, inserting said array of pins in said holes of said substrate with each said solder mass adjacent a respective one of said holes, reflowing said solder masses to cause solder to flow by capillary action into each hole containing a respective pin, and cooling said solder to join each said pin to its respective plated hole.
- 15. A method of joining an array of terminal pins to a substrate having an array of plated holes comprising the steps of:
providing an elongated strip of material with a longitudinally extending section of said strip providing a carrier strip, said strip having an array of clips integral with said carrier strip and spaced along said carrier strip in correspondence with the spacing of said holes, each said clip having a body portion with an opening for receiving a connector pin, each said body portion having first and second solder-holding conformations positioned on opposite sides of said opening, each said solder-holding conformation having a solder mass held thereby, said solder masses being positioned for frictionally engaging and retaining said clips on said terminal pins, inserting said array of clips over corresponding pins of said array of terminal pins in a position with each said solder mass adjacent to a respective plated hole and with each said clip body being frictionally held by its respective pin in said position, inserting said array of pins in said holes of said substrate with each said solder mass adjacent a respective one of said holes, reflowing said solder masses to cause solder to flow by capillary action into each hole containing a respective pin, and cooling said solder to join each said pin to its respective plated hole.
- 16. The method of claim 14, further comprising the steps of:
inserting said clips over said pins after inserting said connector pins into their respective substrate holes, and thereafter reflowing said solder mass.
- 17. The method of claim 16, further comprising the steps of:
inserting said array of clips over said connector pins for frictionally engaging said clips on said pins, and thereafter inserting said connector pins into their respective substrate holes.
- 18. A method of joining a terminal of a first electric device to a second device, comprising the steps of:
providing a solder-holding clip having a body with an opening, said opening being dimensioned for engaging said clip on said terminal, said body having a solder-holding conformation adjacent said opening and a solder mass held by said conformation, inserting said opening over said terminal with said solder mass adjacent to said terminal, and reflowing said solder to join said clip to said terminal electrically and mechanically.
- 19. The method of claim 18, further comprising the step of:
concurrently joining said clip to said second device.
- 20. A method for forming a solder-holding clip for joining to a terminal of an electrical device, comprising the steps of:
providing a clip having a body with an opening, said opening being dimensioned to frictionally engage said terminal, providing a solder-holding conformation on either side of said opening, said conformation comprising a finger integral at one end with said body, laying a solder wire on said body over said opening, and on either side thereof over said fingers bending said fingers over said wire, and removing solder overlying said opening.
- 21. A method of forming a solder-holding clip for joining to a terminal of an electrical device, comprising the steps of:
providing a clip having a flat body portion with two opposed edges, providing a solder-holding conformation on each body edge, each said conformation comprising a finger integral with said body at one end, laying a solder wire on said body over said fingers, forming an opening in said body between said fingers, said opening being dimensioned to engage said clip on said terminal, bending said fingers to hold said wire on said body, and removing said solder overlying said opening.
- 22. The method of claim 21, further comprising the step of:
simultaneously performing said opening-forming and solder-removing steps.
- 23. A solder-holding clip for joining to a terminal of an electrical device, said clip comprising:
a body having an opening for receiving said terminal, said opening being dimensioned for engaging said body on said terminal, said body having a solder-holding conformation adjacent said opening, and a solder mass held by said conformation.
- 24. The clip of claim 23, wherein said clip is in a plane substantially parallel to a conductive area of a second device.
- 25. The clip of claim 23, wherein said clip is in a plane substantially perpendicular to a conductive area of a second device.
- 26. The clip of claim 23, wherein:
said body has at least one finger integral with said body and holding said solder mass against said body.
- 27. The clip of claim 26, wherein said body has a pair of fingers integral therewith, one along each edge of said body, said fingers holding at least one solder mass against said body.
- 28. The clip of claim 27, wherein each of said fingers is on a respective side of said opening, and said solder mass is held by each said finger adjacent said opening but not overlying said opening.
- 29. The clip of claim 23, wherein:
said body has a portion with a U-shaped conformation with a pair of spaced sides joined by a back portion, said solder mass is held by said sides, and said opening is formed by said back portion and said sides.
- 30. An array of solder-holding clips for joining to an array of terminals of an electrical device, said array comprising:
an elongated strip of material, a longitudinally extending section of said strip forming a carrier strip, a plurality of clips integral with and extending laterally from said carrier strip, said clips being spaced correspondingly to said array of terminals, each clip having a body portion with an opening therein and a solder-holding conformation adjacent said opening, each said opening being dimensioned to frictionally engage a respective terminal, each body portion having at least one solder mass held by said conformation adjacent said opening.
- 31. An array of solder-holding clips for joining to an array of terminals of an electrical device, said array comprising:
an elongated strip of material, a longitudinally extending section of said strip forming a carrier strip, a plurality of clips integral with and extending laterally from said carrier strip, said clips being spaced correspondingly to said array of terminals, each said clip having a body portion with an opening for receiving one of said terminals, each said body portion having first and second solder-holding conformations positioned on opposite sides of said opening, each said solder-holding conformation having a solder mass held thereby, said solder masses being positioned for frictionally engaging and retaining each said clip on each said terminal.
- 32. The array of solder-holding clips as in claim 24, wherein said clips are adapted to join said array of terminals to a corresponding array of conductive areas of a second device, and wherein said array of conductive areas is in a plane substantially parallel to said array of terminals.
- 33. The array of solder holding clips as in claim 30, wherein said body portion is flat.
- 34. The array of solder holding clips as in claim 30, further comprising a lead extending from each said body portion for forming a respective terminal to a further device.
- 35. The solder-holding clip of claim 23, wherein:
said body has a U-shaped conformation with a pair of sides and a back joining said sides, each side having a pair of spaced tabs, and said solder is held between said pair of tabs of each pair of sides.
- 36. The solder-holding clip of claim 35, wherein:
said solder is spaced from said clip back to form with said clip sides a terminal-receiving opening therebetween.
Parent Case Info
[0001] The present application claims the benefit of prior provisional application Serial No. 60/006,205 filed Nov. 3, 1995, in the names of Joseph Cachina, Jack Seidler, and James R. Zanolli, entitled “SOLDER-HOLDING CLIPS FOR APPLYING SOLDER To CONNECTORS OR THE LIKE. ”
Provisional Applications (1)
|
Number |
Date |
Country |
|
60006205 |
Nov 1995 |
US |
Divisions (1)
|
Number |
Date |
Country |
Parent |
08726960 |
Oct 1996 |
US |
Child |
08998917 |
Dec 1997 |
US |