Electrode for plasma arc torch and method of fabricating same
First Claim
1. A method of fabricating an electrode adapted for supporting an arc in a plasma arc torch, and comprising the steps ofpreparing a metallic first blank which has a front face and an opposite rear face,forming a cavity in said front face of said first blank,forming a metallic second blank which is configured and sized so as to permit it to be closely received in said cavity,fixedly mounting the second blank in said cavity,forming an opening in said second blank which is perpendicular to said front face,fixedly mounting an emissive insert in said opening of said second blank, with said emissive insert being composed of a metallic material having a relatively low work function which is less than that of the material of said second blank and so as to be adapted to emit electrons upon an electric potential being applied thereto,finishing the front face of the first blank to form a substantially planar surface which includes the first blank, said emissive insert, and an annular ring of said second blank which separates said insert from said first blank, andforming said opposite rear face of said first blank into an open cup shaped configuration.
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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.
69 Citations
6 Claims
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1. A method of fabricating an electrode adapted for supporting an arc in a plasma arc torch, and comprising the steps of
preparing a metallic first blank which has a front face and an opposite rear face, forming a cavity in said front face of said first blank, forming a metallic second blank which is configured and sized so as to permit it to be closely received in said cavity, fixedly mounting the second blank in said cavity, forming an opening in said second blank which is perpendicular to said front face, fixedly mounting an emissive insert in said opening of said second blank, with said emissive insert being composed of a metallic material having a relatively low work function which is less than that of the material of said second blank and so as to be adapted to emit electrons upon an electric potential being applied thereto, finishing the front face of the first blank to form a substantially planar surface which includes the first blank, said emissive insert, and an annular ring of said second blank which separates said insert from said first blank, and forming said opposite rear face of said first blank into an open cup shaped configuration.
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3. A method of fabricating an electrode adapted for supporting an arc in a plasma arc torch, and comprising the steps of
preparing a metallic first blank which has a front face, forming a cavity in said front face of said first blank, forming a metallic second blank which is configured and sized so as to permit it to be closely received in said cavity, fixedly mounting the second blank in said cavity and including inserting a disc of brazing material into said cavity, then inserting said second blank into said cavity, and then heating the assembly to melt the brazing material while pressing the second blank into said cavity, forming an opening in said second blank which is perpendicular to said front face, and then fixedly mounting an emissive insert in said opening of said second blank, with said emissive insert being composed of a metallic material having a relatively low work function which is less than that of the material of said second blank and so as to be adapted to emit electrons upon an electric potential being applied thereto.
Specification