US869616A

US869616A - Furnace.

Info

Publication number: US869616A
Application number: US36941107A
Authority: US
Inventors: Thomas S Blair Jr
Original assignee: Individual
Current assignee: Individual
Priority date: 1907-04-20
Filing date: 1907-04-20
Publication date: 1907-10-29
Anticipated expiration: 1924-10-29

Description

No. 869,616. PATENTED OCT. 29. 190'7,Y

T. S. BLAIR, JB.

FURNACE.

APPLIUATION FILED 111111.20, 1907.

HEB ET l.

No. 869,616. PATENTED OCT. 29. 1907. T. S. BLAIR, JR.

FURNAGE.

APPLIOATION FILED APR. zo, 1907.

4 SHEETS-SHEET 2.

T. s.' BLAIR, JB.

FURNAGE.

APPLICATION FILED APR. 2o,

PATENTEDCT. 29, 1907.

4 SHEETS-SHEET 3.

PATENTED OCT. 29 T. S. BLAIR, JB. FURNAGE.

APPLIUATION FILED 6.23.20, 1607.

4 SHEETS-SHEET 4.

EATENT OFFICE.

THOMAS S. BLAIR, JR., OF ELMHI'IRST, ILLINOIS.

FURNACE Specification of Letters Patent.

Patented Oct. 29, 1907.

Application filed April 20. 1907. Serial No. 369,411.

To all whom it may concern:

Be it known that I, TrroMAs S. BLAIR, Jr., a citizen of the United States, residing at Elmhurst, in the county of Dupage and State of Illinois, have invented a new and useful Improvement in Furnaces, of which the following is a specification.

My invention relates to improvements in the class of reverberatory furnaces of the regenerative type employed for melting or heating steel and known as an open-hearth furnace when adapted for melting, and as a heating-furnace when adapted for heating blooms, billets and ingots.

In this class of furnace the intense heat to which the port-arch, of refractory brick, is subjected soon destroys it, and the same destructive influence is exerted on the rear brick wall of the gas-port;.and the destruction of either of these features of the furnace necessarily throws it out of use pending repair and incurs very great consequent expense. So far as I am aware, no provision has hitherto been made for overcoming this destructive action on the aforesaid rear wall. I know it to be a common practice, however, to form the refractory arch of a length beyond that required to insure thorough combustion of the gases before they enter the furnace-chamber proper, to reverberate thore-V in, thereby to add to the life of the arch by supplying an extension thereof to be worn away in a backward direction by the heat until the resultant shortening of the arch renders it unfit for its purpose; and it is furthermore the practice to provide under the forward-ond portion of this extended section of the arch a system of watercirculating pipes to the end of counteracting the injurious effect upon it of the intense heat. This practice is not effective for the purpose, however, inasmuch as the point below the arch where the greatest intensity of heat-of the burning gases is exerted is short of the extended section and of the water-pipes with which it is equipped, so that the heat, instead, as intended, of wearing away the arch from its forward end backward, soon breaks through it behind the pipes, thereby destroying it almost as soon as though it were unprovided with any means of protection, To overcome this tendicy to` arch-destruction, I substitute for the arch in the furnace a straight hood to extend over the port, forming it hollow of metal, and equip it with means vfor circulating water through it, which effectively protects it against injury from the heat; and to counteract the destructive tendency of the heat upon the rear wall of the port, I construct that wall of metal and provide means for flowing water over its outer surface, the supply of water for this last-named purpose being preferably the outiow from the hood.

In the accompanying drawings, Figure l is a longitudinal vertical section of one of the two similar portcontaining end-portions of a furnace equipped with my improvements, the section being taken at the line l on Fig. 2 and viewed in the direction of the arrow; Fig. 2 is a view of the same in end-elevation partly sectional, the section boing taken at the line 2 on Fig. l and viewed in the direction of the arrow; Fig. 3, a section taken at the line 3 on Fig. l and viewed in the direction of the arrow; Fig. 4, a section taken at the line 4 on Fig. l and viewed in the direction of the arrow, and Fig. 5, a section taken at the line 5 on Fig. l and viewed in the direction of th'c arrow. i

The constructionl of the furnace, except as to the features constituting my improvements, may be the same in all particulars as that of the furnace of the same type in common use, so that there is no need of describing it in detail in the present case. In each end of the furnace-chamber 6 is formed the gas-port 7 leading from a vertical uptake-passage 8, which becomes the downtake-passago when the direction of the gases through the furnace is reversed, as will be understood by those skilled in the art. Through the end-wall 9 my improved device for covering the port 7, and which for lack of a better name l term a hood, to distinguish it from the usual arch, but which performs every function of the latter, projects inclinedly into the furnace, wherein its inner end is supported by the wallsections l0. This hood, denoted as ll, is a hollow metal body-preferably constructed of steel plate, similar to a boiler-shell, though it may be a casting of iron, steel or bronze-having ilat top, bottom and sides with a rounded inner end, and formed with an upright chamber or head-section l2 on its outer end, which abuis against the exterior surface of the wall 9. In the top of the head l2 is provided a vent-opening 13. covered by a shield I4 to tend to exclude foreign matter from entering the hood through the vent. On the head l2, near its base, is secured a manifold'l, from which a plurality of water-pipes I6 extend into the hood nearly to its inner end, wherein they discharge through their open ends, these pipesbeing supported by a spider l7 in the hood. A valved watersupply-pipe 18, leading from a suitable source (not shown) connects with one end of the header l5 to flow water from the latter, through the pipes I6 into the hood 1l, through which it is caused'to circulate by' overflowing through a discharge-pipe I9 leading from the upper part of the chamber l2. By thus circulating water through the port-covering hood it is preserved against rapid destruction and when it is finally worn its removal and replacement by a perfect one are matters of comparative ease, requiring little time and therefore incurring only a short interruption in the operation in the furnace.

The port-wall 20, or bulk-head, instead of being constructed of fire-brick, as usual, is formed of metal, preferably in two sections, as shown, the upper section 2l being narrower, vertically, than the lower section 22 to register with the port 7 and being adapted to be readily removed to permit access to the base of the port for truing rip or repairing it, an operation requiring to be performedoccasionally, and which is very arduous and expensive with the old construction of furnace, wherein the wall 20 is of brick, like the Vrest of the structure., Each section of the port-wall is a plate of channel-form, with its side-walls fitting between .the brick-wall sections of the end of the furnace; and extending between these side-walls, and integral with or fastened to them, are troughs 23 in vertical series, extending from the outer edges of the side walls, where they are upturned as shown, short of the backs of the channel-plates to leave discharge-openings 24 adjacent to said backs. With the troughs alternate shelves 25, inclining upwardly from the back of each section of the wall 20 and extending between the sides thereof, to form water-receptacles adapted to overflow from one into the other through the troughs- 23. These sections of the wall 20 are removably fastened in place, as by bars 26 caused to bear against the upturned ends of the troughs by being inserted through openings 27 formed horizontally through the end-wall` sections of brick between which the sections of the metal wall fit and are confined. v

Water is supplied to iiow over the outer surface of the wall 20 by running the overflow from the hood l2 by way of the pipe 19 through a valved branch 28 to the section 2l tothe uppermost receptacle-forming' shelf 25, whence the overflow runs through the adjacent trough 23 filling the next lower receptacle from which it overflows, and so on down to the base of the wall 20, which is formed into a receptacle 29, whence the water discharges through a pipe` 30 leading lto a sewer or other desired point. Thus the Water is caused to flow and be distributed over the outer surface of the metal wall, to `counteract the injurious tendency'of the heat in the furnace when the hot gases are directed against it in passing from the port 7 into the passage 8, then constituting the port-downtake. I also provide, by preference, another branch 3l. of the pipe 19, to lead the water directly to the lower Wall-section 22, to increase the flow, or rather to supply it to that section while the upper section may be removed temporarily, when the branch 28 would also be removed. l

As is usual in furnaces of the cla-ss to which my invention relates, the air for commingling with the gases enters the furnace-chamber through openings 32 case, the hood 1l in the end-wall. my invention it isl only required to show one end-portion of Fthe furnace; but, as will be understood, it is intended that the opposite end-portion shall be similarly constructed and equipped with my improvements. By the construction thus shown and described a practically indestructible port is provided.` In an open-hearth melting furnace, the blocks i or ends of the furnace, are built up-to the level at which, under the usual construction, the port-arches are placed-of silica brick in acid-lined furnaces, and of magnesite brick in basic vfurna'ces. These blocks are covered with my water-cooled hoods, in place of the brick arches, and they may bekept in shape permanently by throwing silica sand in an acid-furnace, and ground magnesite mixed with proper proportions formed above the plane of the arch, or, in the present For illustrating` to vtime'd'uring the operation of the furnace, in the same manner that the breasts or sides of the furnace-linings are now kept up in the common practice. My improvements not only render the ports of the furnace indestructible, but, by enabling the ports to be kept in their original condition, proper combustion of the gases is assured during the entire life of the furnace,

and, consequently, greatly increased life is afforded to the roof and side-walls, any of which may be readily replaced when required during the usual burning out of the flues at theend of each week. Thissame statement of advantages applies equally to heating furnaces, which, however, are always acid-lined. i

What I claim as new and desire to secure by Letters 1. In a reverberatory regenerative furnace, the combination with the gas-port, of a hollow metal hood forming the entire port covering, and means for circulating water through said hood, for the purpose set forth.

2. In a reverberatory regenerative furnace, the combination with the gas-port, of a hollow metal hood forming the entire port covering,said'hood being provided with 4a water-outlet in its end, and a water-conducting pipe extending within said hood and discharging at its inner end therein, for the purpose set forth.

3. In a reverberatory regenerative furnace, the combination with the gas-port, of a hollow metal hood forming the entire port covering, said ,hood being provided at its outer end with a chamber-forming head, having a discharge outlet, a manifold having a water-supply pipe connected with it, and water-pipes e tending from the manifold in the hood and discharging therein, for the purpose set forth,

4. In a reverberatory regenerative furnace, the combination with the gas-port, of a'hollow metal hood forming the entire port covering, said hood extending through the endwall of the structure into and supported in the furnacechamber and provided at its outer-end with a chamberforming vented head having a discharge-outlet, a manifold on said head having a Water-supply pipe connected with it, and Water-pipes extending from the manifold lengthwise into the hood nearly to and discharging into its inner end, for the purpose set forth.

5. In a reverberatory regenerative furnace, the 4combination with the gas-port, of the adjacent portion of the endwall of the structure formed of metal and provided with means for flowing water over its outer surface and operating to protect said wall against the effect of the heat of the i outgoing products of combustion, for the purpose set forth.

6. In la reverberatory regenerative furnace, the combination with the gas-port and the downtake-passage communicatingv therewith, of the end-wall covering said port and passage, formed of metal and.provided with means `for flowing water over its Youter surface and operating to protect said end wall against the effect of the heat of the outgoing products of combustion, for the purpose 'set forth.

7. In a reverberatory regenerative furnace, the corlbinii.-v tion with the gas-port and the down-take passage communieating therewith, of the end-wall covering said port andy passage, formed of upper and lower metal sections and providedwith means for flowing water over its outer surface and operating to protect said end wall against the effect of the heat of the outgoing products of combustiom. for the purpose set forth.

8. In a reverberatory regenerative furnace, the combina-- tion with the gas-port and the downtakc-passage communieating therewith, of the end-wall covering said port and passage, formed of metal' and provided` on its outer sur-` face with water-distributing means, and means for flowing water over said surface and operating to protect said end wall against the effect of the heat of the outgoing products of combustion, for the purpose set forth.

9. In a reverberatory regenerative furnace, the combina-- tion with the gas-port`and the downtake-passage communieating therewith, of the end-wall covering said port and passage, formed of metal in channel-shape and tting and confined betweenbricksections of the end-Wall of the struc- Of basic Slag, in a basic furnace, againstl them from time l ture, said metal wall having series of water receptacles and troughs on its outer surface, and mens for owing water over said surface through said troughs and receptacles and operating to protect suid Walls against the effect of the heut of the outgoing products of combustion, for the purpose set forth.

l0. In a revcrberatory regenerative furnace, the combination with the gas-port and the downtakepassage communicuting' therewith, of the end-Wall covering said port and passage, formed of metal and provided on its outer surface with water-distributing means, said covering operating to protect said wall against the effect of the heat of the outgoing products of combustion, a hollow metal hood forming the entire port covering extending through the end-wail of the structure above said metal wall into and supported in the furnace chamber and having u. water-outlet in its outer end and a water-conducting pipe in und discharging within it, and it discharge-pipe leading from said outlet t0 said water-distributing menus on the metal wall, for the purpose set forth.

THOMAS S. BLAIR, Jn.

In presence of R. '.i. HARRIS, C. 15. MoLAMrux.