US616475A - Zinc-smelting furnace - Google Patents

Zinc-smelting furnace Download PDF

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US616475A
US616475A US616475DA US616475A US 616475 A US616475 A US 616475A US 616475D A US616475D A US 616475DA US 616475 A US616475 A US 616475A
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furnace
zinc
retorts
buckstays
air
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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
    • C22B19/00Obtaining zinc or zinc oxide
    • C22B19/04Obtaining zinc by distilling
    • C22B19/06Obtaining zinc by distilling in muffle furnaces

Definitions

  • Our invention relates to zinc-sinelting furnaces; and it consists of the novel construction, combination, and arrangement of parts hereinafter described and claimed.
  • Figure 1 is an elevation of a furnace of our improved construction, a portion of said furnace being shown in an incomplete condition in order that the construction may be mo're readily understood
  • Fig. 2 is a vertical seotional view taken )proximately on the line 2 2 of Fig. 1.
  • Fig. 3 is a detail horizontal sectional view taken approximately on the line 3 3 of Fig. 1.
  • Fig. t is a view in perspective of one of the hollow buckstays or arch-braces that we make use of in carrying out our invention.
  • Fig. 5 is an enlarged detail sectional view taken approximately on the line 5 5 of Fig. 1.
  • the gas or like product that is used to heat the interior of our improved furnace enters the furnace through suitable tu bes (i, located in the end wall 2, and the waste gases and smoke discharge from the interior of the furnace through a chimney or flue 7, located in the end wall 3.
  • suitable tu bes i, located in the end wall 2, and the waste gases and smoke discharge from the interior of the furnace through a chimney or flue 7, located in the end wall 3.
  • the foundation, end walls, central partition, and arched top are all constructed of 'lire-brick or analogous heat-resisting material.
  • This construction forms a series of rectangular openings 13, and the outer ends of ordinary retorts 14 occupy said rectangular openings 13, the inner ends of said retorts resting upon flanges or stays 15, formed integral with the partition 5.
  • the outer ends of said retorts 14 rest upon the horizontally-arranged plates 9, and the sides of said retorts engage the curved recesses 12.
  • the open space remaining around the outer ends of the retorts in the openings 13 is now filled with fire-clay or analogous material, and thus the solid side walls are formed.
  • the ends of .the retorts are closed in the usual manner at the time the ore is located in said retorts.
  • buckstays or arch-braces are located outside of said side walls directly against the vertical rows of fire-brick pillars, upon which rest the meeting ends of the plates 9.
  • Certain of these buckstays are in the form of rectangular hollow columns 1G, having the closed top ends, which are provided with the horizontally-apertured heads 17, and the lower ends of said hollow columns 16 are located directly upon the edges of the foundation 1 and are closed by the plates 1S, which are located upon and anchored to said foundation 1.
  • a lug b projects downwardly from the lower end of each column 16 back of the plate 1S and acts as a stop to limit the inward movement of said column and hold the same more securely in position.
  • These hollow columns 10 are alter- IOO nated with solid buckstays lf), the upper ends of which solid buckstays are provided with the apertnred heads 20, and stay-rods 2l connect the upper ends of both the solid buckstays and the hollow columns 1G.
  • each side of the furnace so constructed Located on top of each side of the furnace so constructed are air-conveying vpipes 22, and suitable tubular connections 23 extend from said air-conveying pipes 22 tothe upper ends of the hollow columns 1G.
  • sightopenings 24 may be formed in the outer wall of the hollow columns 16 immediately opposite the discharge-openings 17A, and said sightopenings 2a are closed by sheets of mica 25 or the like, this feature being clearly illustrated in Fig. 5.
  • The' air-conveying pipes 22 lead from a suitably-located blast.
  • the gas is supplied to the furnace chambel Or chambers through the tubes G and combustion takes place within said furnace, the products of combustion passing out through the fine 7.
  • the blast of air is led into the furnace through the supply-pipes 22, and from thence is led into the hollow columns 1G, through the tubular connections 23, and from said hollow columns is discharged into the furnace-chambers through the discharge-openings 17A and ports or openings 10.
  • rlhe process of combustion within the furnace and around the retorts is similar to that of a blowpipe, the heat being regulated within certain limits by the pressure of a blast of air, together with the amount of gas supplied to the furnace.
  • a smeltingfurnace is formed wherein air is discharged into said furnace at various points around the retorts, and as said air enters in the form of jets or blasts it will combine with the gas to create great heat.
  • the hollow columns 1G perform the functions of braces or stays, as do the solid columns or buckstays 19, in addition to serving as means for transmitting air to the interior of the furnace.
  • XVe claiml The combination with a zinc-smelting furnace, of hollew buckstays forming a part of the side walls of the furnace, a series of solid buckstays arranged alternately with said hollow buchstays, air-inlet pipes discharging into the chambers within said hollow buckstays, there being openings formed through the inner walls of said hollow buckstays as required to distribute air and discharge it into the furnace, and retorts in said furnace with their outer ends adjacent said buckstays, substantially as specified.
  • a zinc smelting furnace having side walls construct-ed of vertically-arranged pillars, plates having their ends resting on said pillars, which plates form a rest for the outer ends of the retorts within the furnace, there Vbeing air-inlet ports left between the ends of certain of said plates, the space around the outer ends of the retorts between the pillars and plates being filled with fire-clay, and means of conveying and discharging air through the port-s to the interior of the furnace, substantially as specified.

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  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Manufacturing & Machinery (AREA)
  • Materials Engineering (AREA)
  • Mechanical Engineering (AREA)
  • Metallurgy (AREA)
  • Organic Chemistry (AREA)
  • Furnace Housings, Linings, Walls, And Ceilings (AREA)

Description

Patented Dec. 27, |898. R. H. & W. LANYUN.
ZINC SMELTING FUHNACE.
(Application led Apr. 5, 1898.3
2 Sheets- Sheet I.
(No Model.)
I e n? /'JZWan//s Zaw- No. 6|6,475. Patentedec. 27, |898. R. H. &. W. LANYON.
ZINC SMELTING FURNACE.
(Application filed Apr. 5, 1B98.\
(No Model.) 2 Sheets-Sheet 2.
CSW
I 'Y /mw @Vw F75/79W llNTTnD STATns PATENT @Trina ROBERT ll. LANYON AND VILLIAM LANYON, OF IOLA, KANSAS.
ZINC-SMELTING FURNACE.
SPECIFICATION forming part of Letters Patent No. 616,475, dated December 27', 1898.
Appiimion fiieii lipiii 5, 189s.
T0 @ZZ whom it may conc/2771,.-
Be it known that we, ROBERT H. LANYON and VILLIAM LANYON, of the city of lola, Allen county, State of Kansas, have invented certain new and useful Im provementsin Zinc- Smelting Furnaces, of which the following is a full, clear, and exact description, reference being had to the accompanying drawings, forming a part hereof.
Our invention relates to zinc-sinelting furnaces; and it consists of the novel construction, combination, and arrangement of parts hereinafter described and claimed.
Figure 1 is an elevation of a furnace of our improved construction, a portion of said furnace being shown in an incomplete condition in order that the construction may be mo're readily understood Fig. 2 is a vertical seotional view taken )proximately on the line 2 2 of Fig. 1. Fig. 3 is a detail horizontal sectional view taken approximately on the line 3 3 of Fig. 1. Fig. t is a view in perspective of one of the hollow buckstays or arch-braces that we make use of in carrying out our invention. Fig. 5 is an enlarged detail sectional view taken approximately on the line 5 5 of Fig. 1.
In the construction of our improved furnace we make use of a suitable foundation l, end walls 2 and 3, arched top l, and the eentrally arranged vertical partition 5. Said partit-ion 5 ext-ends longitudinally between the ends 2 and 3 on a line midway between the sides of the foundation 1 and extends from said foundation 1 to the center of the arched top it, and said central partition serves as a support for the inner ends of the retorts, hereinafter described.
The gas or like product that is used to heat the interior of our improved furnace enters the furnace through suitable tu bes (i, located in the end wall 2, and the waste gases and smoke discharge from the interior of the furnace through a chimney or flue 7, located in the end wall 3. The foundation, end walls, central partition, and arched top are all constructed of 'lire-brick or analogous heat-resisting material.
The side walls of our improved furnace are built up in the following manner: A series of fire-brick pillars or blocks 8 are located at equal distances apart along each edge of the Serial No. 676,559. (No model.)
foundation 1 and between the end walls 2 and 3, and upon this first row of fire-brick pillars are laid rectangular plates 9,0f fire-clay. The ends of these plates 9 rest upon the top surfaces of the pillars 8, and at each alternate pillar a space is left between the meeting ends of the plates, which space forms a port 10 for the introduction of air to thefurnace-cham ber by the means hereinafter described. On top of the meeting ends of these plates 9 and in alinement with the pillars S are located rows of fire-clay pillars 11, in the side faces of which are formed curved recesses 12. This construction forms a series of rectangular openings 13, and the outer ends of ordinary retorts 14 occupy said rectangular openings 13, the inner ends of said retorts resting upon flanges or stays 15, formed integral with the partition 5. The outer ends of said retorts 14 rest upon the horizontally-arranged plates 9, and the sides of said retorts engage the curved recesses 12. The open space remaining around the outer ends of the retorts in the openings 13 is now filled with fire-clay or analogous material, and thus the solid side walls are formed. The ends of .the retorts are closed in the usual manner at the time the ore is located in said retorts. During the construction of these side walls buckstays or arch-braces are located outside of said side walls directly against the vertical rows of fire-brick pillars, upon which rest the meeting ends of the plates 9. Certain of these buckstays are in the form of rectangular hollow columns 1G, having the closed top ends, which are provided with the horizontally-apertured heads 17, and the lower ends of said hollow columns 16 are located directly upon the edges of the foundation 1 and are closed by the plates 1S, which are located upon and anchored to said foundation 1. A lug b projects downwardly from the lower end of each column 16 back of the plate 1S and acts as a stop to limit the inward movement of said column and hold the same more securely in position. Formed in the inner wall of these hollow columns 1G is a series of discharge-openings 17A, each of which is surrounded by the inwardly-proj ecting'flange 18A, and when these hollow columns 16 are in proper position said flanges project into the openings or ports 10, previously described. These hollow columns 10 are alter- IOO nated with solid buckstays lf), the upper ends of which solid buckstays are provided with the apertnred heads 20, and stay-rods 2l connect the upper ends of both the solid buckstays and the hollow columns 1G. Located on top of each side of the furnace so constructed are air-conveying vpipes 22, and suitable tubular connections 23 extend from said air-conveying pipes 22 tothe upper ends of the hollow columns 1G. If desired, sightopenings 24 may be formed in the outer wall of the hollow columns 16 immediately opposite the discharge-openings 17A, and said sightopenings 2a are closed by sheets of mica 25 or the like, this feature being clearly illustrated in Fig. 5. The' air-conveying pipes 22 lead from a suitably-located blast.
In operation the gas is supplied to the furnace chambel Or chambers through the tubes G and combustion takes place within said furnace, the products of combustion passing out through the fine 7. The blast of air is led into the furnace through the supply-pipes 22, and from thence is led into the hollow columns 1G, through the tubular connections 23, and from said hollow columns is discharged into the furnace-chambers through the discharge-openings 17A and ports or openings 10. rlhe process of combustion within the furnace and around the retorts is similar to that of a blowpipe, the heat being regulated within certain limits by the pressure of a blast of air, together with the amount of gas supplied to the furnace. Thus by our improved construction a smeltingfurnace is formed wherein air is discharged into said furnace at various points around the retorts, and as said air enters in the form of jets or blasts it will combine with the gas to create great heat.
The hollow columns 1G perform the functions of braces or stays, as do the solid columns or buckstays 19, in addition to serving as means for transmitting air to the interior of the furnace.
XVe do not herein specifically claim the hollow columns 1G, they being so claimed in our prior application, filed May 24, 1898, Serial No. 637,912.
XVe claiml. The combination with a zinc-smelting furnace, of hollew buckstays forming a part of the side walls of the furnace, a series of solid buckstays arranged alternately with said hollow buchstays, air-inlet pipes discharging into the chambers within said hollow buckstays, there being openings formed through the inner walls of said hollow buckstays as required to distribute air and discharge it into the furnace, and retorts in said furnace with their outer ends adjacent said buckstays, substantially as specified.
2. A zinc smelting furnace having side walls construct-ed of vertically-arranged pillars, plates having their ends resting on said pillars, which plates form a rest for the outer ends of the retorts within the furnace, there Vbeing air-inlet ports left between the ends of certain of said plates, the space around the outer ends of the retorts between the pillars and plates being filled with fire-clay, and means of conveying and discharging air through the port-s to the interior of the furnace, substantially as specified.
In testimony whereof we affix our signatures in presence of two witnesses.
ROBERT H. LANYON. VM. LANYON.
lVitnesses:
E. H. RUBLE, CHAs. J. BISHOP.
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