Electrode for plasma arc torch and method of fabricating same
First Claim
1. An electrode adapted for supporting an arc in a plasma arc torch and comprisinga metallic holder having a front end, and a cavity in said front end, andan insert assembly mounted in said cavity and comprising an emissive insert composed of a metallic material having a relatively low work function, and a sleeve surrounding said emissive insert so as to separate said emissive insert from contact with said holder, said sleeve having a radial thickness of at least 0.1 inches at said front end and being composed of a metallic material having a work function which is greater than that of the material of said emissive insert, and said sleeve being composed of a metal which is selected from the group consisting of silver, gold, platinum, rhodium, iridium, palladium, nickel, and alloys wherein at least 50% of the composition of the alloy consists of one or more of said metals andwhereby said sleeve acts to resist movement of the arc attachment point from said insert to said holder.
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Accused Products
Abstract
An electrode for a plasma arc torch and a method of fabricating the same are disclosed, and wherein the electrode includes a copper holder having a lower end which mounts an emissive insert which acts as the cathode terminal for the arc during operation. Where the torch is used in an oxidizing atmosphere, the copper holder tends to oxidize, and the arc tends to attach to the oxidized copper rather than the insert, which results in the rapid destruction of the holder. To prevent this destruction, the present invention incorporates a sleeve of silver or other metal having a relatively high work function, and which is positioned to surround the insert and form an annular ring on the lower end surface of the holder and thus to surround the exposed end face of the emissive insert. The annular ring serves to prevent arcing from the copper holder, and so that the arc is maintained on the insert.
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Citations
18 Claims
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1. An electrode adapted for supporting an arc in a plasma arc torch and comprising
a metallic holder having a front end, and a cavity in said front end, and an insert assembly mounted in said cavity and comprising an emissive insert composed of a metallic material having a relatively low work function, and a sleeve surrounding said emissive insert so as to separate said emissive insert from contact with said holder, said sleeve having a radial thickness of at least 0.1 inches at said front end and being composed of a metallic material having a work function which is greater than that of the material of said emissive insert, and said sleeve being composed of a metal which is selected from the group consisting of silver, gold, platinum, rhodium, iridium, palladium, nickel, and alloys wherein at least 50% of the composition of the alloy consists of one or more of said metals and whereby said sleeve acts to resist movement of the arc attachment point from said insert to said holder.
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2. An electrode adapted for supporting an arc in a plasma arc torch and comprising
a metallic holder having a front end, and a cavity in said front end, and an insert assembly mounted in said cavity and comprising an emissive insert composed of a metallic material having a relatively low work function, and a sleeve surrounding said emissive insert so as to separate said emissive insert from contact with said holder, said sleeve having a radial thickness of at least about 0.01 inches at said front end and being composed of a metallic material having a work function which is greater than that of the material of said emissive insert, and said sleeve being composed of an alloy which comprises copper and a second metal which is selected from the group consisting of silver, gold, platinum, rhodium, iridium, palladium, nickel, and alloys thereof, and wherein said second metal comprises at least about 10% of the alloy of copper and the second metal, and whereby said sleeve acts to resist movement of the arc attachment point from said insert to said holder.
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8. An electrode adapted for supporting an arc in a plasma arc torch and comprising
a metallic tubular holder defining a longitudinal axis and having a front end and a rear end, and a transverse end wall closing said front end, said transverse end wall having a substantially planar outer front face which is perpendicular to said longitudinal axis, and a cavity formed in said front face and which extends rearwardly along said longitudinal axis, and an insert assembly mounted in said cavity and comprising (a) a generally cylindrical emissive insert disposed coaxially along said longitudinal axis and having an outer end face lying in the plane of said front face of said holder, said emissive insert being composed of a metallic material having a relatively low work function so as to be adapted to readily emit electrons upon an electric potential being applied thereto, and (b) a sleeve positioned in said cavity coaxially about said emissive insert, said sleeve having a radial thickness of at least about 0.1 inches at said front end and being composed of a metallic material having a work function which is greater than that of the material of said holder and greater than that of the material of said emissive insert, said metallic sleeve being selected from the group consisting of silver, gold, platinum, rhodium, iridium, palladium, nickel, and alloys wherein at least 50% of the composition of the alloy consists of one or more of said metals, and whereby said sleeve acts to resist movement of the arc attachment point from said insert to said holder.
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9. An electrode adapted for supporting an arc in a plasma arc torch and comprising
a metallic tubular holder defining a longitudinal axis and having a front end and a rear end, and a transverse end wall closing said front end, said transverse end wall having a substantially planar outer front face which is perpendicular to said longitudinal axis, and a cavity formed in said front face and which extends rearwardly along said longitudinal axis, and an insert assembly mounted in said cavity and comprising (a) a generally cylindrical emissive insert disposed coaxially along said longitudinal axis and having an outer end face lying in the plane of said front face of said holder, said emissive insert being composed of a metallic material having a relatively low work function so as to be adapted to readily emit electrons upon an electric potential being applied thereto, and (b) a sleeve positioned in said cavity coaxially about said emissive insert, said sleeve having a radial thickness of at least about 0.1 inches at said front end and being composed of a metallic material having a work function which is greater than that of the material of said holder and greater than that of the material of said emissive insert, said metallic sleeve being composed of an alloy which comprises copper and a second metal which is selected from the group consisting of silver, gold, platinum, rhodium, iridium, palladium, nickel, and alloys thereof, and wherein said second metal comprises at least about 10% of the alloy of copper and the second metal, and whereby said sleeve acts to resist movement of the arc attachment point from said insert to said holder.
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16. A plasma torch comprising
an electrode including a metallic elongate tubular holder defining a longitudinal axis and having a transverse front end wall, said transverse front end wall having a substantially planar outer front face which is perpendicular to said longitudinal axis, a cavity formed in said front face along said longitudinal axis, and an insert assembly mounted in said cavity and which comprises (a) a generally cylindrical emissive insert disposed coaxially along said longitudinal axis and having an outer end face lying in the plane of said front face of said holder, said emissive insert being composed of a metallic material having a relatively low work function so as to be adapted to readily emit electrons upon an electric potential being applied thereto, and (b) a sleeve positioned in said cavity coaxially about said emissive insert, said sleeve having a radial thickness of at least about 0.1 inches at said front face and being composed of a metallic material having a work function of at least about 4.3 ev and which is greater than that of the material of said emissive insert, said sleeve being selected from the group consisting of silver, gold, platinum, rhodium, iridium, palladium, nickel, and alloys wherein at least 50% of the composition of the alloy consists of one or more of said metals, said sleeve further having an outer annular surface lying in the plane of said front face of said holder and surrounding said end face of said insert, nozzle means mounted adjacent said transverse front end wall of said electrode and having a bore therethrough which is aligned with said longitudinal axis, means for creating an electrical arc extending from said emissive insert of said electrode through said bore and to a workpiece located adjacent said nozzle means, and means for generating a vortical flow of a gas between said electrode and said nozzle means and so as to create a plasma flow outwardly through said bore and to said workpiece.
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17. A plasma torch comprising
an electrode including a metallic elongate tubular holder defining a longitudinal axis and having a transverse front end wall, said transverse front end wall having a substantially planar outer front face which is perpendicular to said longitudinal axis, a cavity formed in said front face along said longitudinal axis, and an insert assembly mounted in said cavity and which comprises (a) a generally cylindrical emissive insert disposed coaxially along said longitudinal axis and having an outer end face lying in the plane of said front face of said holder, said emissive insert being composed of a metallic material having a relatively low work function so as to be adapted to readily emit electrons upon an electric potential being applied thereto, and (b) a sleeve positioned in said cavity coaxially about said emissive insert, said sleeve having a radial thickness of at least about 0.01 inches at said front face and being composed of a metallic material having a work function of at least about 4.3 ev and which is greater than that of the material of said emissive insert, said metallic sleeve being composed of an alloy which comprises copper and a second metal which is selected from the group consisting of silver, gold, platinum, rhodium, iridium, palladium, nickel, and alloys thereof, and wherein said second metal comprises at least about 10% of the alloy of copper and the second metal, said sleeve further having an outer annular surface lying in the plane of said front face of said holder and surrounding said end face of said insert, nozzle means mounted adjacent said transverse front end wall of said electrode and having a bore therethrough which is aligned with said longitudinal axis, means for creating an electrical arc extending from said emissive insert of said electrode through said bore and to a workpiece located adjacent said nozzle means, and means for generating a vortical flow of a gas between said electrode and said nozzle means and so as to create a plasma flow outwardly through said bore and to said workpiece.
Specification