In a two wire thermocouple, a hollow tip is formed of the material of one of the thermocouple wires, the tip being adapted to extend into a medium the temperature of which is to be measured, both wires extending into a passage in the tip through an open outer end of the passage toward an inner end o
In a two wire thermocouple, a hollow tip is formed of the material of one of the thermocouple wires, the tip being adapted to extend into a medium the temperature of which is to be measured, both wires extending into a passage in the tip through an open outer end of the passage toward an inner end of the passage, one of the two thermocouple wires, of a material different from said tip, extending entirely through the passage and being welded at the outside of said tip to form a thermocouple junction and the other of the wires, of the same material as the tip, being welded to the tip at a place spaced from the junction.
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Having thus described the invention, what is claimed and desired to be secured by Letters Patent is: 1. In a two wire thermocouple, the improvement comprising, a hollow tip formed of the material of one of said thermocouple wires, said tip being adapted to extend into a medium the temperature of wh
Having thus described the invention, what is claimed and desired to be secured by Letters Patent is: 1. In a two wire thermocouple, the improvement comprising, a hollow tip formed of the material of one of said thermocouple wires, said tip being adapted to extend into a medium the temperature of which is to be measured, both of said wires extending into a passage in said tip through an open outer end of said passage in said tip toward an inner, closed, end of said passage, said closed end having a small hole in it, one of the two thermocouple wires, of a material different from said tip, extending entirely through said passage and said small hole, and being welded at the outside of said tip at said inner end of said passage to form a thermocouple junction and the other of said thermocouple wires, of the same material as said tip, being welded to said tip at a place spaced from the said junction. 2. The improvement of claim 1 wherein the tip is made of constantan and the thermocouple wires are constantan and iron. 3. The improvement of claim 1 wherein the tip is made of constantan and the thermocouple wires are constantan and copper. 4. The improvement of claim 1 wherein the hollow tip has a rounded end at the end of the passage through which the said one of the thermocouple wires extends entirely. 5. The improvement of claim 1 wherein said tip is made with a flange on the open end, the purpose of said flange being to retain said tip in said thermocouple assembly. 6. The improvement of claim 1 wherein the tip is very thin at the location of the small hole through which the thermocouple wire extends and is welded to form the thermocouple junction. 7. The improvement of claim 1 wherein the tip is elongated and the external surface comprises three sections, a closed end being rounded, a transition section adjacent the rounded end, and a cylindrical section of a uniform diameter extending between the transition section and the open outer end. 8. The improvement of claim 7 wherein the transition section is a flat radial surface with an OD matching the diameter of the rounded closed end and the ID matching the diameter of the cylindrical shank. 9. In an assembly of a thermocouple, comprising a sheath, a hollow tip, an insulator for separating said tip from said sheath, and thermocouple wires of two distinct materials suitable for making a thermocouple junction, the improvement comprising said tip being made from the same material as one of the thermocouple wires and different from the material from which the other thermocouple wire is made, a hole in said tip from an open end to a closed end of said tip, said dosed end being a thin wall with a small hole in the center of the end, said holes constituting a passage defined by a side wall, the thermocouple wire of a material different from said tip being inserted through said small hole in said end of said tip and welded to said end of said tip to form a bead that forms a thermocouple junction, the thermocouple wire of material common to said tip being inserted through a small hole in said side wall, said thermocouple wire of common material being welded to said side wall of said tip, said tip being electrically isolated from said sheath by means of said insulator. 10. The improvement of claim 9 wherein the sheath is swaged at an end to form a seat for the insulator to seat against. 11. The improvement of claim 9 wherein the sheath is stainless steel. 12. The improvement of claim 9 including a threaded interior wall of the sheath and a mating insert with an external thread to match the thread of the internal wall of the sheath, said insert having an exposed end with an engagement means for a turning tool. 13. The improvement of claim 9 wherein the hollow tip is rounded on the outside of the closed end and has an outside diameter that is the same as the portion of the insulator protruding from the sheath, the tip has a transition section to a shank of smaller diameter than the outside diameter of the rounded tip, and the shank has an extended length to the open end of the tip. 14. The improvement of claim 9 wherein the insulator is a mica-based ceramic. 15. The improvement of claim 9 wherein said insulator is a ceramic, and said improvement includes a ductile metallic backing ring located against the ceramic insulator and a swage of the sheath to produce a reduced diameter preventing the backing ring and other internal components from moving when the tip end of the sheath is subjected to a liquid under pressure. 16. The improvement of claim 15 wherein a backing ring is made of a stainless steel. 17. The improvement of claim 9 including a sealant to seal the components within said sheath to prevent a liquid from passing through gaps between the components. 18. The improvement of claim 17 wherein the sealant is a silicone rubber compound. 19. The improvement of claim 18 wherein said silicone rubber compound is capable of surviving in a 500 degree Fahrenheit environment continuously, and can survive if the temperature has an excursion to 650 degrees Fahrenheit occasionally. 20. The improvement of claim 9 including multiple layers of protective flexible sheathing, all of which are connected to and extending from the end of the sheath that does not contain the tip, said multiple layers of flexible sheathing extending the length of the thermocouple wires, except for a sufficient length of exposed thermocouple wire as is necessary for connections for the particular application. 21. The improvement of claim 20, wherein there is an internal protective sheathing made of a flexible insulating tube and there is an external flexible sheathing made of a spiral corrugated metallic sheath. 22. The improvement of claim 21 wherein the internal protective sheathing is made of polytetrafluoroethylene. 23. The improvement of claim 9 including a protective flexible sheathing connected to and extending from the end of the sheath that does not contain the tip, said flexible sheathing extending along the length of the thermocouple wires. 24. The improvement of claim 23 wherein the flexible sheathing is braided stainless steel. 25. The improvement of claim 23 wherein the flexible sheathing is a spiral corrugated metallic sheath. 26. The improvement of claim 23 wherein the flexible sheathing is braided fiberglass material. 27. The improvement of claim 23 wherein the flexible sheathing is a flexible tube. 28. The improvement of claim 27 wherein the flexible tube is comprised of a plastic. 29. The improvement of claim 27 wherein the flexible tube is comprised of polytetrafluoroethylene. 30. The improvement of claim 27 wherein the flexible tube is comprised of a rubber. 31. In an assembly of a thermocouple, comprising a sheath, a hollow tip, an insulator for separating said tip from said sheath, a thermocouple wires of two dissimilar materials suitable for making a thermocouple junction, and sealant, the improvement comprising said tip being made from the material common to one of the thermocouple wires, a closed end of the tip being a thin wall with a small hole in the center of the end, the thermocouple wire of a non-common material being inserted through said hole in said end of said tip and welded to said tip to form a bead that forms a thermocouple junction, a thermocouple wire of material common to the tip being inserted through a small hole in the side wall of said tip at some distance from said thermocouple junction at said end of said tip, said thermocouple wire of common material being welded to said side wall of said tip, said tip being electrically isolated from said sheath by means of an insulator, and said sealant serving to prevent a liquid from passing through the length of the sheath.
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