US3559974A - Oxygen lances having a high resistance to deterioration and multipiece nozzle heads therefor - Google Patents

Oxygen lances having a high resistance to deterioration and multipiece nozzle heads therefor Download PDF

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US3559974A
US3559974A US803696A US3559974DA US3559974A US 3559974 A US3559974 A US 3559974A US 803696 A US803696 A US 803696A US 3559974D A US3559974D A US 3559974DA US 3559974 A US3559974 A US 3559974A
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copper
worked
oxygen
metal
nozzle
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Walter V Berry
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    • CCHEMISTRY; METALLURGY
    • C21METALLURGY OF IRON
    • C21CPROCESSING OF PIG-IRON, e.g. REFINING, MANUFACTURE OF WROUGHT-IRON OR STEEL; TREATMENT IN MOLTEN STATE OF FERROUS ALLOYS
    • C21C5/00Manufacture of carbon-steel, e.g. plain mild steel, medium carbon steel or cast steel or stainless steel
    • C21C5/28Manufacture of steel in the converter
    • C21C5/42Constructional features of converters
    • C21C5/46Details or accessories
    • C21C5/4606Lances or injectors

Definitions

  • the terminology worked” means forged or pressed or formed or extruded or swaged.
  • the so-worked copper utilized herein is free from oxygen hydrogen, sulfur and any elementsconsidered to be tramp elements with respect to copper, which elements by themselves, or in combination, could form precipitates that would migrate to the grain boundaries to lower the physical properties or
  • This invention relates to oxygen lances having a high resistance to deterioration and also to multipiece nozzles or heads therefor having a high resistance to deterioration.
  • Oxygen lances are utilized for injecting oxygen into open hearth furnaces and also basic oxygen furnaces. It is likewise well known that the nozzle or head portion of the lance is relatively rapidly deteriorated, as compared to the other portions of the lance, and that such deterioration takes place at the nose portion of the nozzle particularly around the nozzle exit openings from which the oxygen passes or is ejected into the furnace.
  • the lance and the multipiece nozzle of this invention are such that the number of heats accomplished therewith are substantially increased, for example, as high as 100 percent, or more.
  • copper the most widely used nozzle material, has a relatively low melting point and is used widely in its cast form for nozzles
  • the oxygen lance and the multipiece nozzle of this invention have a high resistance to deterioration, and the high deterioration resistant nozzle of this invention has a worked metal, e.g. copper, base or nose portion and worked metal, e.g. copper, oxygen conduits and a cast metal, e.g. copper, body portion including oxygen conduit means connected to said worked metal, e.g. copper, oxygen conduits.
  • the word worked herein means forged or pressed or formed or extruded or swaged.
  • the copper herein utilized in its worked state is copper free from oxygen, hydrogen, sulfur and any elements considered to be tramp" elements with respect to copper, which by themselves, or in combination, could form precipitates that would migrate to the grain boundaries to lower the physical properties or cause grain separation. Because of the use of the worked copper as hereinbefore set forth and as shall be hereinafter more particularly described the multipiece nozzles and, of course, the lances of this invention are highly resistant to deterioration.
  • the cast copper and the worked copper used are both highconductivity copper.
  • Oxygen injection lances and nozzles or heads therefor are disclosed in many US. patents. Such patents include the Berry US. Pat. No. 3,201,104 wherein ceramic sleeves are used in the single-cast, high-conductivity copper nozzle and the Berry US. Pat. No. 3,043,577 wherein the cooling system has been modified for preventing heat deterioration of the lance. Also included amongst related prior art patents are the Berry US. Pat. No. 3,118,608, the Kurzinski US. Pat. No. 3,065,916 and the Vonnemann US. Pat. No. 3,322,348.
  • the deterioration-resistant lance and nozzle of this invention is relatively simple and economical to manufacture and does not require any substantial change in the lance and nozzle coolant circulation system Likewise, no exotic temperature-resistant and oxidation-resistant materials, such as ceramic materials. are required
  • the combination of the cast copper and the worked copper as hereinbefore set forth and as shall be hereinafter more particularly described enables the attainment of a high deterioration-resistant lance and nozzle therefor capable of accomplishing an increase of I00 percent, or more. in the number of heats as compared with the attainment of prior art lances and nozzles therefor.
  • the oxygen injection lances and the multipiece nozzles therefor of this invention are such that have a high resistance to deterioration, that is, they are capable of accomplishing an increase of I00 percent, or more, in the number of heats without any substantial deterioration of the nozzle, particularly at the nose portion thereof around the nozzle exit openings, by the use of the worked copper for the base or nose portion and for the nozzle oxygen conduits and the use of the cast copper for the nozzle body portion including the oxygen conduits thereof connected to the worked copper nozzle oxygen conduits.
  • One of the objects of this invention is to provide an oxygen lance having a high resistance to deterioration including a shank and a multipiece nozzle connected thereto, said nozzle having a worked copper base or nose portion and worked copper oxygen conduits and a cast copper body portion.
  • Another object of this invention is to provide an oxygen lance multipiece nozzle having a high resistance to deterioration, said nozzle having a worked copper base or nose portion and worked copper oxygen conduits and a cast copper body portion.
  • FIG. 1 is a bottom view of the oxygen lance of this invention and also of the multipiece noule of this invention.
  • FIG. 2 is a longitudinal cross-sectional view taken on line 2-2 of FIG. 1, showing a portion of the oxygen lance.
  • FIG. 3 is a top view of the multipiece nozzle of this invention.
  • FIG. 4 is a longitudinal cross-sectional view taken on line 4-4 of FIG. 3.
  • FIG. 5 is a perspective view of a component part of the oxygen lance and of the multipiece nozzle of this invention.
  • oxygen lance 1 includes a top adapter assembly (not shown), multipiece nozzle or head 2 and shank portion 3 including the three concentrically positioned pipes, namely centrally positioned pipe 4, intermediate pipe 5, and outer pipe 6.
  • Multipiece nozzle 2 includes cast copper body member 7, worked copper oxygen exit conduits 8, 8, 8 and worked copper base or nose portion 9.
  • Nose portion 9 is joined to outer pipe 6 by circumferential weld l0, and cast copper body member 7 is joined to intermediate pipe 5 by circumferential weld 11 and to centrally positioned pipe 4 by circumferential weld 12.
  • Nose portion 9 is likewise joined to worked copper oxygen exit conduits 8, 8, 8 in openings 35. 35, 35 thereof by circumferential welds l3. l3. 13, as is clearly apparent from the appended drawings.
  • Cast copper body member 7 includes duct portion 14 and entry conduit portions 15, 15. 15 integral therewith. as is clearly apparent from the appended drawings. Worked copper oxygen exit conduits 8, 8.
  • Cast copper body member 7 also includes cast copper wall member 17 spaced from cast copper duct portion 14 and cast copper oxygen entry conduit portions l5, 15, 15, by means of connecting cast copper wall members 18, 18, 18, 18, l8, l8 integral therewith. as clearly shown in the appended drawings. Thereby are formed coolant passageways 19. 19, 19 and coolant passageways 20, 20, 20.
  • Coolant passageways 20, 20, 20 are fonned, as clearly shown in the appended drawings, by cast copper wall member 17 and cast copper wall portions 22, 22, 22 integral with cast copper wall 17 and connecting cast copper wall members l8, 18, 18, 18, 18, 18, 18, and cast copper duct portion 14 and also cast copper entry conduit portions 15, 15, 15, all as clearly shown in the appended drawings.
  • Each of worked copper oxygen exit conduits 8, 8, 8 includes circumferential shoulder portion 24, top portion 25, and bottom portion 45, and each of cast copper oxygen entry conduit portions 15, 15, 15, in the assembly of multipiece nozzle 2, is in fluidtight relation with and is joined by circumferential welds 34, 34, 34 to each of said worked copper oxygen exit conduits 8, 8, 8 at said shoulder portions 24, 24, 24, 24, as clearly shown in the appended drawings.
  • each of .worked copper oxygen exit conduits 8, 8, 8 diverges from the vertical axis of nozzle 2 and preferably includes the parabolic profiled lower inner wall surfaced portion 26, as clearly shown in the appended drawings, the throat portion 29 and portion 28 inclined from the top thereof to and toward throat portion 29, as clearly shown in the appended drawings.
  • each of worked copper oxygen exit conduits 8, 8, 8 includes a portion 30 which extends beyond worked copper base or nose portion 9 of nozzle 2 in its assembled condition.
  • each of worked copper oxygen exit conduits 8, 8, 8 can be of a converging-diverging shape (not shown herein) as shown in my application Ser. No. 445,100.
  • each of worked copper oxygen exit conduits 8, 8, 8 can terminate to be coextensive with the flat portion 36 of base portion 9 instead of including portion 30 extending beyond base or nose portion 9.
  • nozzle 2 is capable of easy and economical manufacture and of easy and economical repair.
  • Worked copper base or nose portion 9 and each of worked copper oxygen exit conduits 8, 8, 8 can be easily replaced as the need arises merely by cracking the circumferential welds, and exit conduits and a nose portion of various dimensions can be thereby utilized.
  • the worked copper is freefrom oxygen, hydrogen, sulfur and any elements considered to be tramp elements with respect to copper. which by themselves, or in combination. could form precipitatesthatwould migrate to the grain boundaries to lower the .physical properties or cause grain separation.
  • the worked copper herein is forged copper.
  • pressed copper or formed copper or extruded copper or swaged copper can likewise be used as the worked copper, 7
  • An oxygen lance having a high resistance to deterioration comprising, in combination;
  • said shank including:
  • said nozzle head including:
  • said oxygen duct means for passing oxygen therethrough and then therefrom; said oxygen duct means having cast metal entry conduit means and worked metal exit conduit means; I a worked metal base portion, and cast metal means for circulating said coolant therethrough in heat exchange relationship with said oxygen duct means and said base portion; and said worked metal exit conduit means being. connected at one end portion thereof to said worked metal base portion and at the other end portion thereof to said cast metal entry conduit means.
  • the oxygen lance of claim 2 wherein said worked copper exit conduit means includes a plurality of worked copper exit conduit members each diverging from the lance vertical axis.
  • said worked copper exit conduit means includes a plurality of worked copper exit conduit members each-diverging from the lance vertical axis;
  • each of said conduit members including a portion having a parabolic profile.
  • a multipiece nozzle head for an oxygen lancehavinga high resistance to deterioration comprising, in combination:
  • duct means for passing oxygen therethrough and then therefrom, said duct means including: cast metal entry.conduit means and worked metal exit conduit means; 3
  • said worked metal exit means being connected at one end portion thereof to said worked metal base portion and at the other end portion thereof to said cast-metal entry conduit means.
  • said worked'copper exit conduit means includes a plurality of worked copper exit conduit members each diverging from the nozzle head vertical axis.
  • each of said conduit members extends beyond said base portion.

Abstract

Oxygen lances having a high resistance to deterioration comprising a shank and a multipiece nozzle connected thereto wherein the multipiece nozzle includes a worked metal, e.g. copper, base portion, worked metal, e.g. copper, oxygen conduits and a cast metal, e.g. copper, body portion including oxygen conduit means connected to said worked metal, e.g. copper, oxygen conduits. The terminology ''''worked'''' means forged or pressed or formed or extruded or swaged. The so-worked copper utilized herein is free from oxygen, hydrogen, sulfur and any elements considered to be ''''tramp'''' elements with respect to copper, which elements by themselves, or in combination, could form precipitates that would migrate to the grain boundaries to lower the physical properties or cause grain separation.

Description

United States Inventor Walter V. Berry Pittsburgh, Pa.
Appl. No. 803,696
Filed Mar. 3, 1969 Patented Feb. 2, 1971 Assignee Berry Metal Company Wilmington, Del. a corporation of Delaware. by mesne assignments Continuation-impart of application Ser. No.
445,100, Apr. 2, 1965, now Patent No. 3,430,939.
OXYGEN LANCES HAVING A HIGH RESISTANCE TO DETERIORATION AND MULTIPIECE NOZZLE HEADS THEREFOR Primary Examiner-Gerald A. Dost AttorneyHyman F. Glass ABSTRACT: Oxygen lances having a high resistance to deterioration comprising a shank and a multipiece nozzle connected thereto wherein the multipiece nozzle includes a worked metal, e.g. copper, base portion, worked metal, e.g. copper, oxygen conduits and a cast metal, e.g. copper, body portion including oxygen conduit means connected to said worked metal, e.g. copper, oxygen conduits. The terminology worked" means forged or pressed or formed or extruded or swaged. The so-worked copper utilized herein is free from oxygen hydrogen, sulfur and any elementsconsidered to be tramp elements with respect to copper, which elements by themselves, or in combination, could form precipitates that would migrate to the grain boundaries to lower the physical properties or cause grain separation.
. SHEET 10F 3 4 5 \FBMPA r I 5 Li} l8 E ,5 "7 vs 8 IO 23 26 34 wk INVENTOR WALTEP 5Qpy ATTORNEY PATENTED FEB 2197: 3559.974
sum 3 or 3 v INVENTOR Vl AL rm l/BE/PRY ATTORNEY OXYGEN LANCES HAVING A HIGH RESISTANCE TO DETERIORATION AND MULTIPIECE NOZZLE HEADS THEREFOR This application is a continuation-in-part of my application Ser. No 445100 filed on Apr 2. i965 and now US Pat. No 3.430.939
BACKGROUND OF THE INVENTION l Field olthe Invention This invention relates to oxygen lances having a high resistance to deterioration and also to multipiece nozzles or heads therefor having a high resistance to deterioration. Oxygen lances, as is well known, are utilized for injecting oxygen into open hearth furnaces and also basic oxygen furnaces. It is likewise well known that the nozzle or head portion of the lance is relatively rapidly deteriorated, as compared to the other portions of the lance, and that such deterioration takes place at the nose portion of the nozzle particularly around the nozzle exit openings from which the oxygen passes or is ejected into the furnace. In attempts to solve such deterioration problems heretofore various types of materials having high-temperature resistance and high resistance to oxidation have been used. However. such attempts have been unsatisfactory because such materials still oxidize and otherwise deteriorate substantially as rapidly as does copper, the most widely used nozzle material. Also, the nozzle head and the entire lance have. in some instances, been redesigned with respect to the cooling system therein and therefor, that is, a better circulation of the coolant water in the region of the ox ygen conduits at the nose portion of the nozzle has been accomplished, but the problem of, in many instances, rapid deterioration has not been completely solved. The lance and the multipiece nozzle of this invention are such that the number of heats accomplished therewith are substantially increased, for example, as high as 100 percent, or more. As is well known, copper, the most widely used nozzle material, has a relatively low melting point and is used widely in its cast form for nozzles The oxygen lance and the multipiece nozzle of this invention have a high resistance to deterioration, and the high deterioration resistant nozzle of this invention has a worked metal, e.g. copper, base or nose portion and worked metal, e.g. copper, oxygen conduits and a cast metal, e.g. copper, body portion including oxygen conduit means connected to said worked metal, e.g. copper, oxygen conduits. As is well known, such materials as aluminum, copper and forging brass are readily worked. The word worked herein means forged or pressed or formed or extruded or swaged. The copper herein utilized in its worked state is copper free from oxygen, hydrogen, sulfur and any elements considered to be tramp" elements with respect to copper, which by themselves, or in combination, could form precipitates that would migrate to the grain boundaries to lower the physical properties or cause grain separation. Because of the use of the worked copper as hereinbefore set forth and as shall be hereinafter more particularly described the multipiece nozzles and, of course, the lances of this invention are highly resistant to deterioration. The cast copper and the worked copper used are both highconductivity copper.
2. Description of the Prior Art Oxygen injection lances and nozzles or heads therefor, as presently known, are disclosed in many US. patents. Such patents include the Berry US. Pat. No. 3,201,104 wherein ceramic sleeves are used in the single-cast, high-conductivity copper nozzle and the Berry US. Pat. No. 3,043,577 wherein the cooling system has been modified for preventing heat deterioration of the lance. Also included amongst related prior art patents are the Berry US. Pat. No. 3,118,608, the Kurzinski US. Pat. No. 3,065,916 and the Vonnemann US. Pat. No. 3,322,348.
In the prior art either the coolant system and/or ceramic inserts for the nozzle oxygen conduits are used to make the lance and of course the nozzle therefor somewhat deterioration resistant However. the deterioration-resistant lance and nozzle of this invention is relatively simple and economical to manufacture and does not require any substantial change in the lance and nozzle coolant circulation system Likewise, no exotic temperature-resistant and oxidation-resistant materials, such as ceramic materials. are required The combination of the cast copper and the worked copper as hereinbefore set forth and as shall be hereinafter more particularly described enables the attainment of a high deterioration-resistant lance and nozzle therefor capable of accomplishing an increase of I00 percent, or more. in the number of heats as compared with the attainment of prior art lances and nozzles therefor.
SUMMARY OF THE INVENTION The oxygen injection lances and the multipiece nozzles therefor of this invention are such that have a high resistance to deterioration, that is, they are capable of accomplishing an increase of I00 percent, or more, in the number of heats without any substantial deterioration of the nozzle, particularly at the nose portion thereof around the nozzle exit openings, by the use of the worked copper for the base or nose portion and for the nozzle oxygen conduits and the use of the cast copper for the nozzle body portion including the oxygen conduits thereof connected to the worked copper nozzle oxygen conduits.
One of the objects of this invention is to provide an oxygen lance having a high resistance to deterioration including a shank and a multipiece nozzle connected thereto, said nozzle having a worked copper base or nose portion and worked copper oxygen conduits and a cast copper body portion.
Another object of this invention is to provide an oxygen lance multipiece nozzle having a high resistance to deterioration, said nozzle having a worked copper base or nose portion and worked copper oxygen conduits and a cast copper body portion.
Other objects and features will be readily apparent from the following detailed description which is not limiting but only illustrative of the preferred embodiment of this invention.
BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a bottom view of the oxygen lance of this invention and also of the multipiece noule of this invention.
FIG. 2 is a longitudinal cross-sectional view taken on line 2-2 of FIG. 1, showing a portion of the oxygen lance.
FIG. 3 is a top view of the multipiece nozzle of this invention.
FIG. 4 is a longitudinal cross-sectional view taken on line 4-4 of FIG. 3.
FIG. 5 is a perspective view of a component part of the oxygen lance and of the multipiece nozzle of this invention.
DESCRIPTION OF THE PREFERRED EMBODIMENT Elements or groups of elements which are conventional and generally widely known in the field to which the oxygen injection lance and the multipiece nozzle of this invention relates of course form a part of the lance and also a part of the nozzle of this invention herein described, and their exact nature or type is not here described in detail for the reason that persons skilled in the art can understand and use the lance and nozzle of this invention without a detailed recitation of such conventional and generally widely known elements or groups of elements.
More particularly, oxygen lance 1 includes a top adapter assembly (not shown), multipiece nozzle or head 2 and shank portion 3 including the three concentrically positioned pipes, namely centrally positioned pipe 4, intermediate pipe 5, and outer pipe 6.
Multipiece nozzle 2 includes cast copper body member 7, worked copper oxygen exit conduits 8, 8, 8 and worked copper base or nose portion 9. Nose portion 9 is joined to outer pipe 6 by circumferential weld l0, and cast copper body member 7 is joined to intermediate pipe 5 by circumferential weld 11 and to centrally positioned pipe 4 by circumferential weld 12. as is clearly apparent from the appended drawings. Nose portion 9 is likewise joined to worked copper oxygen exit conduits 8, 8, 8 in openings 35. 35, 35 thereof by circumferential welds l3. l3. 13, as is clearly apparent from the appended drawings. Cast copper body member 7 includes duct portion 14 and entry conduit portions 15, 15. 15 integral therewith. as is clearly apparent from the appended drawings. Worked copper oxygen exit conduits 8, 8. 8 are joined to cast copper oxygen entry conduit portions 15. 15, 15 (which are integral with cast copper duct portion 14) by circumferential welds l6, l6, 16 at approximately the respective portions thereof where duct portion 14 is integral with cast copper entry conduit portions 15, 15, 15, as is clearly shown in the appended drawings. Cast copper body member 7 also includes cast copper wall member 17 spaced from cast copper duct portion 14 and cast copper oxygen entry conduit portions l5, 15, 15, by means of connecting cast copper wall members 18, 18, 18, 18, l8, l8 integral therewith. as clearly shown in the appended drawings. Thereby are formed coolant passageways 19. 19, 19 and coolant passageways 20, 20, 20. Coolant passageways 20, 20, 20 are fonned, as clearly shown in the appended drawings, by cast copper wall member 17 and cast copper wall portions 22, 22, 22 integral with cast copper wall 17 and connecting cast copper wall members l8, 18, 18, 18, 18, 18, and cast copper duct portion 14 and also cast copper entry conduit portions 15, 15, 15, all as clearly shown in the appended drawings. Each of worked copper oxygen exit conduits 8, 8, 8 includes circumferential shoulder portion 24, top portion 25, and bottom portion 45, and each of cast copper oxygen entry conduit portions 15, 15, 15, in the assembly of multipiece nozzle 2, is in fluidtight relation with and is joined by circumferential welds 34, 34, 34 to each of said worked copper oxygen exit conduits 8, 8, 8 at said shoulder portions 24, 24, 24, as clearly shown in the appended drawings. As is also clearly shown in the appended drawings, each of .worked copper oxygen exit conduits 8, 8, 8 diverges from the vertical axis of nozzle 2 and preferably includes the parabolic profiled lower inner wall surfaced portion 26, as clearly shown in the appended drawings, the throat portion 29 and portion 28 inclined from the top thereof to and toward throat portion 29, as clearly shown in the appended drawings. Preferably, each of worked copper oxygen exit conduits 8, 8, 8 includes a portion 30 which extends beyond worked copper base or nose portion 9 of nozzle 2 in its assembled condition. Also, each of worked copper oxygen exit conduits 8, 8, 8 can be of a converging-diverging shape (not shown herein) as shown in my application Ser. No. 445,100. In addition, each of worked copper oxygen exit conduits 8, 8, 8 can terminate to be coextensive with the flat portion 36 of base portion 9 instead of including portion 30 extending beyond base or nose portion 9.
1n the operation of oxygen lance 1 oxygen passes through centrally positioned pipe 4, duct portion 14 of cast copper body member 7 of nozzle 2, entry conduit portions 15, 15, 15 of cast copper body member 7 and worked copper oxygen exit conduits 8, 8, 8 out through oxygen exit ports 31, 31, 31 of portions 30, 30, 30 into the furnace. Likewise, in the operation of oxygen lance l coolant water passes downwardly through annular passageway 32, coolant passageways l9 and 20 past wall member 17 and wall portions 22, 22, 22 and apron members 23, 23, 23 and, of course, connecting wall members 18, 18, l8, 18, 18, 18 past duct portion 14 and oxygen entry conduit portions 8, 8, 8 and back upwardly, through nozzle 2 and annular passageway 33, all as clearly shown by the directional arrows in the appended drawings and the appended drawings themselves.
As is clear from the description herein and also from the appended drawings herein, nozzle 2 is capable of easy and economical manufacture and of easy and economical repair. Worked copper base or nose portion 9 and each of worked copper oxygen exit conduits 8, 8, 8 can be easily replaced as the need arises merely by cracking the circumferential welds, and exit conduits and a nose portion of various dimensions can be thereby utilized.
As hereinbefore set forth. the worked copper is freefrom oxygen, hydrogen, sulfur and any elements considered to be tramp elements with respect to copper. which by themselves, or in combination. could form precipitatesthatwould migrate to the grain boundaries to lower the .physical properties or cause grain separation. Preferably the worked copper herein is forged copper. However. pressed copper or formed copper or extruded copper or swaged copper can likewise be used as the worked copper, 7
Many alterations and changes-may be made without departing from the spirit and scope of this invention which is set forth in the appended claims which are .to be construed as broadly as possible in view of the prior art.
I claim:
1. An oxygen lance having a high resistance to deterioration comprising, in combination;
a shank and a multipiece nozzle head connected to said shank;
said shank including:
duct means for passing oxygen therethrough and into said nozzle head and duct means for passing coolant therethrough and into said nozzle .head and returning said coolant from said nozzle head therethrough;
said nozzle head including:
duct means for passing oxygen therethrough and then therefrom; said oxygen duct means having cast metal entry conduit means and worked metal exit conduit means; I a worked metal base portion, and cast metal means for circulating said coolant therethrough in heat exchange relationship with said oxygen duct means and said base portion; and said worked metal exit conduit means being. connected at one end portion thereof to said worked metal base portion and at the other end portion thereof to said cast metal entry conduit means.
2. The oxygen lance of claim 1 wherein said cast metal is cast copper and said worked metal is worked copper.
3. The oxygen lance of claim 2 wherein said worked copper exit conduit means extends beyond said base portion.
.4. The oxygen lance of claim 2 wherein said worked copper exit conduit means includes a plurality of worked copper exit conduit members each diverging from the lance vertical axis.
5. The oxygerr'lance of claim 2 wherein:
said worked copper exit conduit means includes a plurality of worked copper exit conduit members each-diverging from the lance vertical axis;
each of said conduit members includinga portion having a parabolic profile.
6. The oxygen lance of claim 5 wherein each of said conduit members extends beyond said base portion.
7. A multipiece nozzle head for an oxygen lancehavinga high resistance to deterioration, comprising, in combination:
duct means for passing oxygen therethrough and then therefrom, said duct means including: cast metal entry.conduit means and worked metal exit conduit means; 3
a worked metal base portion;
cast metal means for circulating coolant therethrough in heat exchange relationship with said oxygen duct means andv said base portion;
said worked metal exit means being connected at one end portion thereof to said worked metal base portion and at the other end portion thereof to said cast-metal entry conduit means.
8. The nozzle head of claim 7 wherein said cast metal is cast copper and said worked metal is worked copper.
9. The nozzle head of claim 8 wherein said worked copper exit conduit means extends beyond said base portion.
10. The nozzle head of claim'8 wherein said worked'copper exit conduit means includes a plurality of worked copper exit conduit members each diverging from the nozzle head vertical axis.
11. The nozzle head of claim 8 wherein:
a parabolic profile. 12. The nozzle head of claim 11 wherein each of said conduit members extends beyond said base portion.

Claims (11)

  1. 2. The oxygen lance of claim 1 wherein said cast metal is cast copper and said worked metal is worked copper.
  2. 3. The oxygen lance of claim 2 wherein said worked copper exit conduit means extends beyond said base portion.
  3. 4. The oxygen lance of claim 2 wherein said worked copper exit conduit means includes a plurality of worked copper exit conduit members each diverging from the lance vertical axis.
  4. 5. The oxygen lance of claim 2 wherein: said worked copper exit conduit means includes a plurality of worked copper exit conduit members each diverging from the lance vertical axis; each of said conduit members including a portIon having a parabolic profile.
  5. 6. The oxygen lance of claim 5 wherein each of said conduit members extends beyond said base portion.
  6. 7. A multipiece nozzle head for an oxygen lance having a high resistance to deterioration, comprising, in combination: duct means for passing oxygen therethrough and then therefrom, said duct means including: cast metal entry conduit means and worked metal exit conduit means; a worked metal base portion; cast metal means for circulating coolant therethrough in heat exchange relationship with said oxygen duct means and said base portion; said worked metal exit means being connected at one end portion thereof to said worked metal base portion and at the other end portion thereof to said cast metal entry conduit means.
  7. 8. The nozzle head of claim 7 wherein said cast metal is cast copper and said worked metal is worked copper.
  8. 9. The nozzle head of claim 8 wherein said worked copper exit conduit means extends beyond said base portion.
  9. 10. The nozzle head of claim 8 wherein said worked copper exit conduit means includes a plurality of worked copper exit conduit members each diverging from the nozzle head vertical axis.
  10. 11. The nozzle head of claim 8 wherein: said worked copper exit conduit means includes a plurality of worked copper exit conduit members each diverging from the nozzle head vertical axis; and each of said conduit members including a portion having a parabolic profile.
  11. 12. The nozzle head of claim 11 wherein each of said conduit members extends beyond said base portion.
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Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS5072804A (en) * 1973-08-08 1975-06-16
EP0046721A1 (en) * 1980-08-26 1982-03-03 Ugine Savoie Nozzle for oxygen-injection lances used in the decarburisation of pig iron, in particular chromium pig iron
US4744748A (en) * 1986-10-02 1988-05-17 Wingaersheek Division Of Victor Equipment Company Multiple burner torch tip
US4913735A (en) * 1989-02-09 1990-04-03 Palmer Manufacturing & Supply, Inc. Flux injector lance for use in processing aluminum and method
US5370309A (en) * 1993-05-19 1994-12-06 A. H. Tallman Bronze Company Limited Liquid cooled nozzle
WO2000071760A1 (en) * 1999-05-20 2000-11-30 Berry Metal Company Combined forged and cast lance tip assembly
US6234406B1 (en) * 1995-06-23 2001-05-22 Jacques J. A. Thomas Blasting nozzle with welded lance head for the agitation of baths
US20070246869A1 (en) * 2006-04-21 2007-10-25 Berry Metal Company Metal making lance tip assembly
US20120118592A1 (en) * 2009-07-28 2012-05-17 Jean Lois Lowry Ambient mist head

Citations (4)

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Publication number Priority date Publication date Assignee Title
US3201104A (en) * 1962-08-21 1965-08-17 Walter V Berry Oxygen lance for subsurface use
US3322419A (en) * 1964-12-24 1967-05-30 Union Carbide Corp Oxygen jet devices
US3322348A (en) * 1964-01-09 1967-05-30 Hoerder Huettenunion Ag Apparatus for the treatment of metal melts with gases
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US3201104A (en) * 1962-08-21 1965-08-17 Walter V Berry Oxygen lance for subsurface use
US3322348A (en) * 1964-01-09 1967-05-30 Hoerder Huettenunion Ag Apparatus for the treatment of metal melts with gases
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Cited By (14)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS5072804A (en) * 1973-08-08 1975-06-16
US3957258A (en) * 1973-08-08 1976-05-18 Italsider S.P.A. Nozzles of the lance heads for blowing oxygen from above in the refining processes
JPS5729531B2 (en) * 1973-08-08 1982-06-23
EP0046721A1 (en) * 1980-08-26 1982-03-03 Ugine Savoie Nozzle for oxygen-injection lances used in the decarburisation of pig iron, in particular chromium pig iron
FR2489368A1 (en) * 1980-08-26 1982-03-05 Ugine Aciers NEW NOZZLE FOR OXYGEN INJECTION LAUNCHER FOR DECARBURATION OF FONTES AND APPLICATION TO DECARBURATION OF CHROMIUM WAFERS
US4744748A (en) * 1986-10-02 1988-05-17 Wingaersheek Division Of Victor Equipment Company Multiple burner torch tip
US4913735A (en) * 1989-02-09 1990-04-03 Palmer Manufacturing & Supply, Inc. Flux injector lance for use in processing aluminum and method
US5370309A (en) * 1993-05-19 1994-12-06 A. H. Tallman Bronze Company Limited Liquid cooled nozzle
US6234406B1 (en) * 1995-06-23 2001-05-22 Jacques J. A. Thomas Blasting nozzle with welded lance head for the agitation of baths
WO2000071760A1 (en) * 1999-05-20 2000-11-30 Berry Metal Company Combined forged and cast lance tip assembly
US6217824B1 (en) 1999-05-20 2001-04-17 Berry Metal Company Combined forged and cast lance tip assembly
US20070246869A1 (en) * 2006-04-21 2007-10-25 Berry Metal Company Metal making lance tip assembly
US20120118592A1 (en) * 2009-07-28 2012-05-17 Jean Lois Lowry Ambient mist head
US9199106B2 (en) * 2009-07-28 2015-12-01 Jean Lowry Ambient mist head

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