Claims
- 1. A vacuum arc interrupter comprising:
a vacuum chamber assembly having a vacuum chamber and a first conductor structured to be coupled to a circuit; said first conductor disposed within said vacuum chamber; a pressure chamber assembly having a second conductor structured to be coupled to a ground, a pressure chamber, a gas generation device and a bullet assembly; said pressure chamber assembly disposed adjacent to said vacuum chamber assembly; said gas generation device coupled to, and in fluid communication with said pressure chamber; and said bullet assembly disposed in said pressure chamber and structured to move between a first position, where said bullet assembly is spaced from said first and second conductors, and a second position, where said bullet assembly contacts, and is in electrical communication with, said first and second conductors.
- 2. The vacuum arc interrupter of claim 1 wherein:
said bullet assembly includes a lance and a piston assembly having a body with a first side and a second side; said lance coupled to said piston assembly; said lance made from a conductive material having an elongated body with a first end and a second end; and said lance first end tapered to a point.
- 3. The vacuum arc interrupter of claim 2 wherein:
said lance body includes a tip, a medial portion, and a base; said tip disposed at said lance first end, said base disposed at said lance second end, and said medial portion disposed therebetween; and said tip having a taper angle between about 90 and 150 degrees.
- 4. The vacuum arc interrupter of claim 3, wherein said tip has a taper angle of about 120 degrees.
- 5. The vacuum arc interrupter of claim 2, wherein:
said base is flared, having a smaller cross-sectional area adjacent to said medial portion and a greater cross-sectional area adjacent to said disk; said base flare angle being between about 90 and 150 degrees.
- 6. The vacuum arc interrupter of claim 5, wherein said base flare angle is about 94 degrees.
- 7. The vacuum arc interrupter of claim 6, wherein:
said second conductor has a tapered passage; said bullet assembly lance flared base is structured to engage said tapered passage; and wherein, when said bullet assembly is in said second position, said lance base engages said tapered passage.
- 8. The vacuum arc interrupter of claim 7, wherein:
said vacuum chamber assembly includes a non-conductive housing and a seal cup; said first conduct and said seal cup each sealingly coupled to said non-conductive housing, thereby defining said vacuum chamber; said lance tip is structured to puncture said seal cup as said bullet assembly moves from said first position to said second position.
- 9. The vacuum arc interrupter of claim 8, wherein said first conductor and said seal cup are separated by a distance of at least 0.4 inches, but no more than about 2.0 inches.
- 10. The vacuum arc interrupter of claim 8 wherein:
said first conductor includes an electrode having a stem and a receiving cup; and said cup structured to engage said lance.
- 11. The vacuum arc interrupter of claim 10, wherein said electrode and said seal cup are separated by a distance of at least 0.4 inches, but no more than about 2.0 inches.
- 12. The vacuum arc interrupter of claim 2, wherein said piston body first side has a convex surface.
- 13. The vacuum arc interrupter of claim 12, wherein said piston body first side is conical.
- 14. The vacuum arc interrupter of claim 13, wherein said piston body conical first side has an angle between about 30 and 90 degrees.
- 15. The vacuum arc interrupter of claim 14, wherein said piston body conical first side has an angle of about 80 degrees.
- 16. The vacuum arc interrupter of claim 14, wherein:
said pressure chamber assembly has a cylindrical barrel defining said pressure chamber; said barrel has a first end and a second end, and said pressure chamber has a tapered transition portion and a second sized portion; said transition portion in fluid communication with said second sized portion; said barrel first end having an inlet opening; said inlet opening in fluid communication with said transition portion; said barrel second end having a bullet assembly opening; said bullet assembly opening in fluid communication with said second sized portion; a bullet assembly disposed in said pressure chamber second sized portion; said gas generation device coupled to said inlet port; and wherein, upon generation of a gas by said gas generation device, said bullet assembly moves within said pressure chamber from said first position to said second position.
- 17. The vacuum arc interrupter of claim 16, wherein said piston body first side taper angle is more obtuse than the taper angle of said transition portion whereby a gap exist between said piston body first side and said transition portion when said bullet assembly is in said first position.
- 18. The vacuum arc interrupter of claim 16, wherein said gas generation device is structured to move said bullet assembly between said first position and said second position in less than 2.0 msec.
- 19. The vacuum arc interrupter of claim 15 wherein:
said lance body includes a tip, a medial portion, and a base; said tip disposed at said lance first end, said base disposed at said lance second end, and said medial portion disposed therebetween; and said tip having a taper angle between about 90 and 150 degrees.
- 20. The vacuum arc interrupter of claim 19, wherein said tip has a taper angle of about 120 degrees.
- 21. The vacuum arc interrupter of claim 19, wherein:
said base is flared, having a smaller cross-sectional area adjacent to said medial portion and a greater cross-sectional area adjacent to said disk; said base flare angle being between about 90 and 150 degrees.
- 22. The vacuum arc interrupter of claim 21, wherein said base flare angle is about 94 degrees.
- 23. The vacuum arc interrupter of claim 22, wherein:
said second contact has a tapered passage; said bullet assembly lance flared base is structured to engage said tapered passage; and wherein, when said bullet assembly is in said second position, said lance base engages said tapered passage.
CROSS-REFERENCE TO RELATED APPLICATIONS
[0001] This application is related to commonly assigned, concurrently filed:
[0002] U.S. patent application Ser. No. ______, filed ______, 2002, entitled “Shorting Switch And System To Eliminate Arcing Faults In Power Distribution Equipment” (Attorney Docket No. 01-EDP-213);
[0003] U.S. patent application Ser. No. ______, filed ______, 2002, entitled “Shorting Switch And System To Eliminate Arcing Faults In Power Distribution Equipment” (Attorney Docket No. 01-EDP-326);
[0004] U.S. patent application Ser. No. ______, filed ______, 2002, entitled “Shorting Switch And System To Eliminate Arcing Faults In Low Voltage Power Distribution Equipment” (Attorney Docket No. 01-EDP-385);
[0005] U.S. patent application Ser. No. ______, filed ______, 2002, entitled “Shorting Switch And System To Eliminate Arcing Faults In Power Distribution Equipment” (Attorney Docket No. 01-EDP-386);
[0006] U.S. patent application Ser. No. ______, filed ______, 2002, entitled “Bullet Assembly For A Vacuum Arc Interrupter” (Attorney Docket No. 01-EDP-425);
[0007] U.S. patent application Ser. No. ______, filed ______, 2002, entitled “Vacuum Arc Interrupter Having A Tapered Conducting Bullet Assembly” (Attorney Docket No. 01-EDP-428);
[0008] U.S. patent application Ser. No. ______, filed ______, 2002, entitled “Vacuum Arc Interrupter Actuated By A Gas Generated Driving Force” (Attorney Docket No. 01-EDP-429); and
[0009] U.S. patent application Ser. No. ______, filed ______, 2002, entitled “Blade Tip For Puncturing Cupro-Nickel Seal Cup” (Attorney Docket No. 01-EDP-471).