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A wire feeder includes a wire feeder housing that may enclose one or more drive rollers rotatably connected with respect to the wire feeder housing for engaging welding wire. The one or more drive rollers may be adjustable and adapted to drive the welding wire to a welding gun connected to the wire

A wire feeder includes a wire feeder housing that may enclose one or more drive rollers rotatably connected with respect to the wire feeder housing for engaging welding wire. The one or more drive rollers may be adjustable and adapted to drive the welding wire to a welding gun connected to the wire feeder. A drive motor is incorporated for delivering power for rotating the one or more drive rollers. Friction reducing devices, such as bearings, may be utilized and positioned between one or more driver rollers and the housing, where the bearings are electrically non-conducting for preventing the discharge of electrical energy across the bearing surfaces.

대표청구항 ▼

1. A wire feeder for conveying associated welding wire, comprising: a wire feeder having one or more drive rollers, the one or more drive rollers being adapted to push the associated welding wire toward the welding gun;a welding gun operatively connected to the wire feeder for conveying associated w

1. A wire feeder for conveying associated welding wire, comprising: a wire feeder having one or more drive rollers, the one or more drive rollers being adapted to push the associated welding wire toward the welding gun;a welding gun operatively connected to the wire feeder for conveying associated welding wire used in arc welding, the welding gun having at least one drive roller within the welding gun to pull the welding wire toward an egress aperture in the welding gun, the at least one drive roller within the welding gun having a generally U-shaped idle arm in operative connection with an idler drive roll, a tension between the idle arm and idler drive roll controlled by a tensioned adjustment screw on the idler arm;the wire feeder having one or more drive rollers and the welding gun having at least one drive roller within the welding gun being separated by a length of cable within which the welding wire is disposed therein;at least a first driver motor operatively connected to deliver power for rotating the one or more drive rollers in the wire feeder;at least a second driver motor operatively connected to deliver power for rotating the at least one drive roller in the welding gun; and,one or more bearings positioned between the one or more drive rollers in the wire feeder and the at least one drive roller within the welding gun, said one or more bearings coaxial with each of said one or more drive rollers, wherein each of the one or more bearings is electrically non-conducting for preventing the discharge of electrical energy across the one or more bearings. 2. The wire feeder as defined in claim 1, wherein the one or more bearings are constructed from a dielectric material. 3. The wire feeder as defined in claim 1, wherein the one or more bearings are constructed from ceramic. 4. The wire feeder as defined in claim 1, wherein at least the drive rollers are constructed from electrically non-conducting material. 5. The wire feeder as defined in claim 4, wherein said drive rollers further comprise: a plurality of adjacent spherical bearing balls, and, wherein the bearing balls are constructed from ceramic. 6. The wire feeder as defined in claim 1, wherein the drive motors are variable speed drive motors for conveying the associated welding wire at varying speeds. 7. A push-pull drive system for a welding wire feeder conveying associated electrically charged wire, comprising: a first wire feeding means positioned external to a welding wire gun, said first wire feeding means comprising:a generally rigid apertured first feed plate having one or more recesses; at least one first drive roller rotatably connected with respect to the first feed plate, wherein the at least one first drive roller is spaced apart to propel the associated electrically charged wire, said at least one first drive roller having an opposed roller which matingly engages with the at least one first drive roller;a first means for reducing rolling friction operatively positioned between said at least one first drive roller and the first feed plate, said first means for reducing rolling friction being coaxially positioned with said at least one first drive roller, and wherein said first means for reducing rolling friction is electrically non-conducting for substantially preventing the discharge of electrical energy between the first feed plate and the at least one first drive roller; anda second wire feeding means positioned within the welding wire gun, said second wire feeding means comprising:a second apertured welding wire feed plate positioned within the welding gun, one side of the second feed plate connected to a gun gooseneck;at least one second drive roller rotatably connected with respect to the second feed plate, wherein the at least one second drive roller is spaced apart to propel the associated electrically charged wire, said at least one second drive roller having an opposed roller which matingly engages with the at least one second drive roller, the at least one second drive roller within the welding gun having a generally U-shaped idle arm in operative connection with an idler drive roll, a tension between the idle arm and idler drive roll controlled by a tensioned adjustment screw on the idler arm; anda second means for reducing rolling friction operatively positioned between said at least one second drive roller and the second feed plate, said second means for reducing rolling friction being coaxially positioned with said at least one second drive roller, and wherein said second means for reducing rolling friction is electrically non-conducting for substantially preventing the discharge of electrical energy between the second feed plate and the at least one second drive roller. 8. The system as defined in claim 7, wherein each of said means for reducing rolling friction comprises one or more rolling elements constructed from ceramic. 9. The system as defined in claim 7, wherein each of the one or more rolling elements are constructed from metal and wherein the one or more rolling elements are coated with ceramic thereby completely covering the one or more metal rolling elements. 10. The system as defined in claim 7, wherein each of said means for reducing rolling friction comprises one or more rolling elements constructed from non-conducting polymeric material. 11. The system as defined in claim 7, wherein the at least one first drive roller in the wire feeding means includes an additional drive roller, and, whereinthe position of the first drive roller is adjustable with respect to the additional drive roller for driving differently sized associated wire. 12. The system as defined in claim 7, further comprising: a wire support guides having a wire passage for channeling the associated electrically charged wire. 13. The system as defined in claim 7, wherein the first and second feed plates are constructed from electrically non-conducting material. 14. The system as defined in claim 7, wherein each of said means for reducing rolling friction comprises: a bushing constructed from a dielectric material. 15. The system as defined in claim 14, wherein the bushing is constructed from ceramic. 16. The system as defined in claim 14, wherein the bushing is constructed from glass. 17. The system as defined in claim 7, wherein each of said means for reducing rolling friction comprises: at least one bearing race and a plurality of rolling elements, wherein the at least one bearing race is received into the one or more recesses of each of said feed plates; and whereinthe at least one bearing race or the plurality of rolling elements is coated or constructed from a non-conductive dielectric material. 18. A spool gun drive system for a welding wire feeder conveying associated electrically charged wire, comprising: a welding wire gun housing, the housing having a removable cover pivotable between an open position and a closed position;a wire feeding means positioned within the welding wire gun housing, said wire feeding means comprising: an apertured welding wire feed plate positioned within the welding gun housing, one side of the feed plate connected to a gun gooseneck;at least one pair of a drive roller in operative connection with an idler roller, each of said drive roller and said idler roller rotatably connected with respect to the feed plate, wherein the pair of the drive roller and idler roller are spaced apart to propel the associated electrically charged wire, the at least one pair of the drive roller and idler roller exposed when the cover is in the open position; anda means for reducing rolling friction operatively positioned between each of said rollers and the feed plate, said means for reducing rolling friction being coaxially positioned with said rollers, and wherein said means for reducing rolling friction is electrically non-conducting for substantially preventing the discharge of electrical energy between the feed plate and the roller; anda generally U-shaped idle arm in operative connection with the idler drive roller, a tension between the idle arm and idler roller controlled by a tensioned adjustment screw on the idler arm. 19. The spool gun drive system as defined in claim 18, wherein said means for reducing rolling friction comprises one or more rolling elements constructed from ceramic. 20. The spool gun drive system as defined in claim 19, wherein the one or more rolling elements are constructed from metal and wherein the one or more rolling elements are coated with ceramic thereby completely covering the one or more metal rolling elements. 21. The spool gun drive system as defined in claim 19, wherein each of said means for reducing rolling friction comprises one or more rolling elements constructed from non-conducting polymeric material. 22. The spool gun drive system as defined in claim 18, wherein the at least one pair of drive roller and idler roller further includes a second pair of drive roller and idler roller, and, whereinthe position of the first drive roller is adjustable with respect to the second drive roller for driving differently sized associated wire. 23. The spool gun drive system as defined in claim 18, further comprising: a wire support guides having a wire passage for channeling the associated electrically charged wire. 24. The spool gun drive system as defined in claim 18, wherein the feed plate is constructed from electrically non-conducting material. 25. The spool gun drive system as defined in claim 18, wherein said means for reducing rolling friction comprises: a bushing constructed from a dielectric material. 26. The spool gun drive system as defined in claim 25, wherein the bushing is constructed from ceramic. 27. The spool gun drive system as defined in claim 26, wherein the bushing is constructed from glass.