US957058A - Electric furnace. - Google Patents

Electric furnace. Download PDF

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US957058A
US957058A US53057509A US1909530575A US957058A US 957058 A US957058 A US 957058A US 53057509 A US53057509 A US 53057509A US 1909530575 A US1909530575 A US 1909530575A US 957058 A US957058 A US 957058A
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furnace
tube
zinc
interior
gases
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US53057509A
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Hiram Weise Hixon
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    • CCHEMISTRY; METALLURGY
    • C22METALLURGY; FERROUS OR NON-FERROUS ALLOYS; TREATMENT OF ALLOYS OR NON-FERROUS METALS
    • C22BPRODUCTION AND REFINING OF METALS; PRETREATMENT OF RAW MATERIALS
    • C22B26/00Obtaining alkali, alkaline earth metals or magnesium
    • C22B26/20Obtaining alkaline earth metals or magnesium
    • C22B26/22Obtaining magnesium

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  • Todlltohmh'itmoy Be it known that I, HIRAM'W. -Hmon, a citizen of the United States, and aresident of Philadelphia, in the county of Philadelphi'a and State of Pennsylvania, have made certain new; and'usefuh Im rovements in Electric'Fui'naces, of which t e following is a ification.
  • y invention relates to electricfurna'ces, more particularly to those furnaces used in the smeltin'gof zinc ores, and it consists in the combinations, constructions and arrangements of parts herein described and claimed.
  • the resent invention is an improvement on thedevice disclosed in a prior'application No. 501,466, and'is also-designed as an improvement on the device shown'in the' patent to Joh'nsonyNo; 920,473, dated May 4, 1909.
  • An object of my invention is to provide a furnacein which the 'zinc' is fed in atthe top, which is kept closed by means of a top of double construction so arranged that an n pen door may be opened and a charge fed 1n while the lower door is shut.
  • a further object of my invention is to provide a novel means forthe exit of the zinc vapor while hot, so as to eliminate the chances of the zinc being reduced to the forth of a blue powder, by means-of certain diluting gases such as 00,- and moisture from the charge.
  • This I attain by means of a central tube of refractory material rovid'ed with inclined assa leading am the interior of the to an communicating with the interior of the furnace, in connection with means for withdrawing the diluting ses.- 1
  • Th s consists o and forming the inclosin'g casi "of t e ithin the steel'sliell A is a non-i conducting refractory lining-B vhichmay be of any appropriate dimensionsandfis thick.
  • a secondinterion-lining G havin' greater heat resisting power may'be t the lower end'of the furnace'is a layer D of the-refractory lining upon which is a base or plate E of carbon which connects with a source f 'electricity by "means'fof a conductore'.
  • the t'op'of the fur nace is a similar plate of carbon F which is connected to the source of electricity by means of the conductor f;
  • the interioro'f the furnace may be filled with zincoreto a point above the upper carbon electrode F,
  • This tube terminates at the closed end g below the upper electrode F.
  • the tube is provided wit a series of 'upwardly inclined passages g which afford communication between the interior of the furnace and the interior of the tube. These passages it will'be seen from the figure terminate above theslag hole H hear the bottom of the furnace.
  • the lower end 'of the tube G extends downwardly thr'o'ugh the bottom of the furnace and is connected with a condenser K.
  • the latterma'y be of any suitable form but. is preferably closed to prevent the entrance of air. -The form herein shown is similar to that disclosed in my prior application Serial No. 501,466,
  • an exhaust pipe T which may be connected with any suitable pump and which is designed to draw out certain vapors and gases from the furnace while the latter is being operated.
  • the charge which is a mixture of roasted zinc ore and sufficient fine coal to reduce it, is fed into the top of the furnace until the furnace is full, both closures y and p being lowered to permit the free entrance of the charge. Owing to the presence of the coal an electrical connection is established between the top electrode Fand the bottom electrode E. The current is now turned on and the heat developed in the charge by the resistance and the arcing of the current from piece to piece of the carbon in the charge, roasts the charge. As the temperature rises the zinc vapor and other gases will be given off. The closures of the double hopper arrangement are locked and the exhaust pump leading to the tube T is started. The partial vacuum thus created results in drawing off the CO and the moisture so as to leave the vaporized zinc free to enter the tube G.
  • This tube it will be noticed is practically at the same temperature as the inside of the furnace and the vapor therefore will not be condensed but will pass on out of the furnace and will be condensed in the condenser K. No air or moisture can be drawn in at the top, due to the fact that one or the other of the hoppers is always closed. As the pressure is reduced the moisture and other gases pass out through -the pipe T while the zinc vapor passes through the openings 9 into the central tube and thence downwardly into the condenser. The zinc vapors are kept in their heated state owing to the fact that the tube is in the center of the furnace at its hottest part. The passages g terminate as stated before above the bottom 6 so that the slag may be drawn ofl through the slag hole H and will not enter the tube G.
  • the upper electrode may be a copper coil through which a cooling medium such as water is constantly fiowlng when the furnace is in use. This would tend to prevent the gases passmg it from carrying zinc vapor out of the furnace.
  • a casing In an electric furnace, a casing, a nonconducting refractory lining for said casing, upfper and lower electrodes, a central tube of re ractory material projecting through the bottom of said casing and extending up wardly into said furnace, upwardly inclined passages in said tube establishing communication between the interior of the furnace and the interior of the tube, an exit pipe for withdrawing certain gases, a two-compartment hopper provided with closures for preventing the escape of gases or vapors from the furnace or the entrance of air and means for locking and unlocking each of said closures.
  • An electric furnace comprising a casing, a refractory lining therefor, upper and lower electrodes, the lower electrode constituting the interior bottom of the fur nace, and a central tube of refractory material rojecting upwardly through the bottom of said furnace, said tube being closed at its upper end and being provided with upwardly inclined passages establishing communication between the interior of the furnace and the interior of the tube, that portion of the tube near the electrode being solid to prevent the entrance of slag or other foreign matter.
  • a casin In an electric furnace, a casin a refractory lining therefor, u peran lower electrodes, a central tube 0 refractory material having passages establishing communication between the interior of the furnace and the interior of the tube, a condenser communicating with said tube at the lower end thereof, an exit pipe at the top of the furnace above said upper electrode for withdrawing gases and a double compartment hopper, each compartment having a conical closure arranged to project into the bottom of the compartment and operated independently of the other closure for preventing the escape of the gases or the entrance of air during the charging operation.
  • a casin a refractory lining therefor, upper an lower electrodes, means for preventing the entrance of air during the charging operation, means for withdrawing certain diluting ases from the furnace, and separate means or withdrawing the zinc vapor.

Description

H. W. HIXON.
ELECTRIC FURNACE.
APPLICATION FILED 11011.30, 1909.
Patented ma 3, 1910.
INVENTOR WITNESSES v ATTORIVE Y8 UNITED STATES'PATENT max snowman, rnnnsnvum.
Specification of Letter! Patent.
Patented Ma 3, 1910.-
mums ma number so, 1909:"8eria1' m. 500,3752
Todlltohmh'itmoy Be it known that I, HIRAM'W. -Hmon, a citizen of the United States, and aresident of Philadelphia, in the county of Philadelphi'a and State of Pennsylvania, have made certain new; and'usefuh Im rovements in Electric'Fui'naces, of which t e following is a ification.
y invention relates to electricfurna'ces, more particularly to those furnaces used in the smeltin'gof zinc ores, and it consists in the combinations, constructions and arrangements of parts herein described and claimed.
The resent invention is an improvement on thedevice disclosed in a prior'application No. 501,466, and'is also-designed as an improvement on the device shown'in the' patent to Joh'nsonyNo; 920,473, dated May 4, 1909.
An object of my invention is to provide a furnacein which the 'zinc' is fed in atthe top, which is kept closed by means of a top of double construction so arranged that an n pen door may be opened and a charge fed 1n while the lower door is shut.
- A further object of my invention is to provide a novel means forthe exit of the zinc vapor while hot, so as to eliminate the chances of the zinc being reduced to the forth of a blue powder, by means-of certain diluting gases such as 00,- and moisture from the charge. This I attain by means of a central tube of refractory material rovid'ed with inclined assa leading am the interior of the to an communicating with the interior of the furnace, in connection with means for withdrawing the diluting ses.- 1
0t er objects and'advantages will appear in the following specification and the novel features of 'the device will be particularly pointed out in the a pended claims.
My invention is ilustrated in the accompanying drawing which is a central vertical sectlon throughthe device.
In zinc smelting operations when conducted in electric: furnaces, the vapors of zinc which arise from the smelting process often meet the cold charge comin in at the top of the furnace which results in the formation of refractory compounds of zinc, to the detriment of the smelting operation. In orderto overcome these obstacles and to keep the vapor away from the upperpart of a furnace."
. thefurnace, I have designed -the"apparatus a'stee'lshell "A, preferably of a cylindrical sha' e,.
shown in the figure." Th s consists o and forming the inclosin'g casi "of t e ithin the steel'sliell A is a non-i conducting refractory lining-B vhichmay be of any appropriate dimensionsandfis thick. A secondinterion-lining G havin' greater heat resisting power may'be t the lower end'of the furnace'is a layer D of the-refractory lining upon which is a base or plate E of carbon which connects with a source f 'electricity by "means'fof a conductore'. oward the t'op'of the fur nace is a similar plate of carbon F which is connected to the source of electricity by means of the conductor f; The interioro'f the furnace may be filled with zincoreto a point above the upper carbon electrode F,
the bottom of the charge restinlgdirectly upon the lower electrode E. I
Projecting through thebottom D of the I furnace is a central tube G of highly-refractory. material such as carbofrundu'm' or magnesite. This tube terminates at the closed end g below the upper electrode F. The tube is provided wit a series of 'upwardly inclined passages g which afford communication between the interior of the furnace and the interior of the tube. These passages it will'be seen from the figure terminate above theslag hole H hear the bottom of the furnace. The lower end 'of the tube G extends downwardly thr'o'ugh the bottom of the furnace and is connected with a condenser K. The latterma'y be of any suitable form but. is preferably closed to prevent the entrance of air. -The form herein shown is similar to that disclosed in my prior application Serial No. 501,466,
above referred to. It will be understood however that this is for pur oses of general illustration and that of er forins of condensers might be used in connection with my invention without departing in the least from the spirit and the scope of the invention.
In order to prevent the esca e of any of the vapors from the top of the mace when the latter is being charged, I have arran ed the double feeding hopper shown in the E- ure. This mnsists of an upper funnel-1i e receptacle J having a conical closure j at its bottom arranged to be drawn upwardly by means of a bell-crank lever L which is attached to the closure by means of a link Z. The extended handle L is provided with a locking member m which is adapted to engage the notches 0 on a locking segment S. A second hopper P is located immediately beneath the hopper J and is provided with a closure 72 which is operated by means of a bell-crank lever R which may be locked to the segment S in the manner described in connection with the lever L.
At the top of the furnace is an exhaust pipe T which may be connected with any suitable pump and which is designed to draw out certain vapors and gases from the furnace while the latter is being operated.
From the foregoing description of the various parts of the device the operation thereof may be readily understood.
The charge, which is a mixture of roasted zinc ore and sufficient fine coal to reduce it, is fed into the top of the furnace until the furnace is full, both closures y and p being lowered to permit the free entrance of the charge. Owing to the presence of the coal an electrical connection is established between the top electrode Fand the bottom electrode E. The current is now turned on and the heat developed in the charge by the resistance and the arcing of the current from piece to piece of the carbon in the charge, roasts the charge. As the temperature rises the zinc vapor and other gases will be given off. The closures of the double hopper arrangement are locked and the exhaust pump leading to the tube T is started. The partial vacuum thus created results in drawing off the CO and the moisture so as to leave the vaporized zinc free to enter the tube G. This tube it will be noticed is practically at the same temperature as the inside of the furnace and the vapor therefore will not be condensed but will pass on out of the furnace and will be condensed in the condenser K. No air or moisture can be drawn in at the top, due to the fact that one or the other of the hoppers is always closed. As the pressure is reduced the moisture and other gases pass out through -the pipe T while the zinc vapor passes through the openings 9 into the central tube and thence downwardly into the condenser. The zinc vapors are kept in their heated state owing to the fact that the tube is in the center of the furnace at its hottest part. The passages g terminate as stated before above the bottom 6 so that the slag may be drawn ofl through the slag hole H and will not enter the tube G.
In place of a carbon electrode F the upper electrode may be a copper coil through which a cooling medium such as water is constantly fiowlng when the furnace is in use. This would tend to prevent the gases passmg it from carrying zinc vapor out of the furnace.
I claim:
1. In an electric furnace for smelting zinc, a casing, a non-conducting refractory lining for said casing, upper and lower electrodes, a central tube of refractory material projecting through the bottom of said casing and extending upwardly into said furnace, communicating passages between'the interior of the furnace and the interior of the tube for the passage of zinc va or, an exit pipe at the upper part of the urnace for withdrawing certain diluting gases, and charging means arranged to prevent the escape of vapors, and the entrance of air.
2. In an electric furnace, a casing, a nonconducting refractory lining for said casing, upfper and lower electrodes, a central tube of re ractory material projecting through the bottom of said casing and extending up wardly into said furnace, upwardly inclined passages in said tube establishing communication between the interior of the furnace and the interior of the tube, an exit pipe for withdrawing certain gases, a two-compartment hopper provided with closures for preventing the escape of gases or vapors from the furnace or the entrance of air and means for locking and unlocking each of said closures.
3. An electric furnace comprising a casing, a refractory lining therefor, upper and lower electrodes, the lower electrode constituting the interior bottom of the fur nace, and a central tube of refractory material rojecting upwardly through the bottom of said furnace, said tube being closed at its upper end and being provided with upwardly inclined passages establishing communication between the interior of the furnace and the interior of the tube, that portion of the tube near the electrode being solid to prevent the entrance of slag or other foreign matter.
4:. In an electric furnace, a casin a refractory lining therefor, u peran lower electrodes, a central tube 0 refractory material having passages establishing communication between the interior of the furnace and the interior of the tube, a condenser communicating with said tube at the lower end thereof, an exit pipe at the top of the furnace above said upper electrode for withdrawing gases and a double compartment hopper, each compartment having a conical closure arranged to project into the bottom of the compartment and operated independently of the other closure for preventing the escape of the gases or the entrance of air during the charging operation.
5. In an electric furnace, a casin a refractory lining therefor, upper an lower electrodes, means for preventing the entrance of air during the charging operation, means for withdrawing certain diluting ases from the furnace, and separate means or withdrawing the zinc vapor.
6. In an electric furnace, a casin a refractorv lining therefor, upper an lower electrodes, means for preventing the entrance of air during the charging operation,
means for creating a partial vacuum and for 10 Withdrawing certain diluting gases and a central tube projecting through the bottom of the furnace for Withdrawing the zinc vapor.
HIRAM WEISE HIXON. Witnesses:
A. ROLAND YERKES, MARY E. LOGAN.
US53057509A 1909-11-30 1909-11-30 Electric furnace. Expired - Lifetime US957058A (en)

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Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2516474A (en) * 1947-08-09 1950-07-25 Aluminum Lab Ltd Electric furnace for production of magnesium
US2708156A (en) * 1952-09-02 1955-05-10 Rumianca Spa Electric furnace for the manufacture of carbon disulphide
US2752233A (en) * 1948-03-08 1956-06-26 Saint Gobain Method for extracting simple elements from fusible materials containing them
US2809107A (en) * 1953-12-22 1957-10-08 Aluminum Co Of America Method of degassing molten metals
US3384361A (en) * 1965-01-07 1968-05-21 Ishikawajima Harima Heavy Ind Furnace top charging equipment

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2516474A (en) * 1947-08-09 1950-07-25 Aluminum Lab Ltd Electric furnace for production of magnesium
US2752233A (en) * 1948-03-08 1956-06-26 Saint Gobain Method for extracting simple elements from fusible materials containing them
US2708156A (en) * 1952-09-02 1955-05-10 Rumianca Spa Electric furnace for the manufacture of carbon disulphide
US2809107A (en) * 1953-12-22 1957-10-08 Aluminum Co Of America Method of degassing molten metals
US3384361A (en) * 1965-01-07 1968-05-21 Ishikawajima Harima Heavy Ind Furnace top charging equipment
DE1508031B1 (en) * 1965-01-07 1971-03-18 Ishikawajima Harima Heavy Ind Charging device for blast furnaces

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