US2271045A

US2271045A - Furnace roof construction

Info

Publication number: US2271045A
Application number: US242064A
Authority: US
Inventors: Herman C Schuler
Original assignee: Individual
Current assignee: Individual
Priority date: 1938-11-23
Filing date: 1938-11-23
Publication date: 1942-01-27
Anticipated expiration: 1959-01-27

Description

1942- H. c. SCHULER 2,271,045

FURNACE ROOF CONSTRUCTION Filed Ndv. 23, 1938 HEEMQN C 50/04 56;

Patented Jan. 27, 1942 UNITED v STATES PATENT OFFICE FURNACE aoor CONSTRUCTION Herman C. Schuler, Fair Oaks, Pa.

Application November 23, 1938, Serial No. 242,064

Claims.

This invention relates to improvements in roof constructions peculiarly well suited for circular furnaces,- such as electric furnaces. The roof of an electric furnace, or similar circular furnace, heretofore has usually been made up of a circular steel ring of channel or plate and an angular section with the web or plate vertical and the flanges of angular-legs extending inwardly. Heretofore in such arrangements, specially designed brick, known as skewback brick, rested on the lower flanges of the ring and reacted against the inside of the vertical web thereof. These specially shaped brickswereshaped on the outside to conform to the'contour of theinside of the steel ring and were beveled ontheir inside face to conform to the conical faced the spherical brick ccnstituting the dome of the roof proper.

: The prior furnace constructions werecostly for the original installationland also-costly to maintain. Thiswas due in part to the requirement of using th zspecial skewback' brick referred to andin'part to the rather expensive means here-- tofore utilized to compensate for theever present cuttingaction of flame leaking between the top of the brickwork of: the furnace shell and the'bottom of the usual roof ring. Heretof'ore, the sectional area of the steel ring-was madegreater than necessary in order that a liberal amount of erosion could take place before there arose danger of failure of the ring, which would require :1

replacement of the same. As a means of preventing, orat least retarding, the destruction of the vital sectional area of the ring, the same has been heretofore cooled by welding one or more circular water cooling pipes or tubes therein conforming with the peripheryrof the ring. While such an arrangement was effective, it was open to the objection that it was too fragile and the sizes of standard brick and other conditions placed a limitation on the pipe sizes which could be inserted between the under side of the roof ring and the top of the wall. This imposed a limitation on the volume of water which could be circulated for cooling purposes.

The present invention eliminates the above deficiencies by doing away with the necessity of using specially shaped and expensive skewback brick and by provision of means whereby a much larger volume of water can be circulated in direct heat exchange relation with the lower flange of the ring; also the general character of the novel roof construction endows the roof with a strength greater than that of roofs heretofore used, making it possible to reduce the sectional Figure 1 is a vertical longitudinal section through the upper portion of an electric furnace illustrating one embodiment of the invention;

Figure 2 is a planthereof with a portion broken away in'the interest of clearness;

Figure 3 is an enlarged fragmentary elevation,

, as viewed from the right of Figure 1; and

Figure 4-is an'enlarged view showing the improved roof ring structure;

Referring in detail to the drawing, I0 represents a circular furnace wall surrounded by a suitable steel shell 12 which is encircled near the top by an annular angular member l4.

Supported by the side wall there is a circular roof ring structure, indicated generally at I5, which is of a construction'especially well suited for use-inv supporting the roof brick of circular furnaces; such as electric furnaces and the like. This roof ring structure comprises an annular channel shaped member having a. web l6, top flange l8 and a bottom flange 20. An'inclined annular plate 22 is disposed between the flanges l8 and 20 in a manner clearly shown in Figure 3 by welding the lower end of the plate to the toe of the flange 20, as indicated by the welded joint 24. At its upper edge, the annular plate 22 is secured to the web of the ring by an annular welded joint 26. Thus there is provided an annular chamber 28 through which cooling water may be circulated, this water being fed in, for example, by way of a pipe 30 and passed off by way of a pipe 32. A suitable partition 34 is interposed between the

pipes

30 and 32 so as to insure proper direction of flow of the cooling water.

The angle of inclination of the annular plate 22 is such that ordinary stock sizes and shapes of fire brick, generally used in the construction of partly spherical or dome shaped furnaces, can be employed. Such conventional bricks are indicated at 36 in Figures 1 and 2, wherein it is clear that the bricks contacting the plate 22 are substantially the same as the other bricks used in roofing. It is thus apparent that according to the present invention specially shaped skewback brick of expensive type heretofore required need not be used in the annular zone where the roof brickwork contacts the roof ring. It is also area and weight of the roof ring section, while apparent from the drawings and description that the cooling chamber 28 is of a generous size which will permit the circulation of a large volume of cooling water in direct heat exchange relation with the lower flange and a substantial portion of the upright web of the ring, as well as with the annular inclined plate 22.

From the foregoing it is apparent that the improved construction provides a roof ring well suited to receive the radial thrust set up by a roof of dome-like Iorm corresponding approximately to a portion of a sphere. It will also be appreciated that the frusto conical inner bearing surface of the plate 22 will form a proper seat for the outer annular layer of bricks whose faces may be said to be substantially parallel and to extend inward in approximately a radial direction.

While I have described quite specifically the embodiment of the invention herein illustrated, it is to be understood that various modifications and substitutions of equivalents may be made by those skilledin the art without departure from the invention, as defined in the appended claims.

I claim:

1. In combination with a circular furnace having a dome shaped brick roof corresponding substantially to a portion of a sphere, a circular metallic structure for taking the lateral thrust of the roof comprising inner and outer walls, circular in plan, defining a closed annular chamber for the circulation of a cooling medium, inlet and outlet pipes connected therewith, said inner wall being inclined downwardly and inwardly so as toform a seat, and a lining seated thereagainst consisting of conventional stock size and shaped brick having approximately parallel radially extending faces, said outer wall having an inwardly extended lower flange and said inner wall being welded at its lower edge to said flange.

2. In combination with a circular furnace having a dome-like brick roof, a rolled structural section forming an annular rooi ring including an outer web and inwardly extending flanges and an inclined annular plate having one end secured to the toe of one of the flanges and the other end secured to the web, thus defining an annular chamber for the circulation of water, and a root composed of brickwork, the outer bricks being of stock size and shape which have approximately parallel radially extending faces,

the outer of which are seated on said inclined annular plate.

3. In combination with a circular furnace having a partly spherical or dome shaped brick rooi whose outer bricks are of stock form and thus have substantially or approximately parallel radially extending faces and end faces substantially perpendicular thereto, an annular structure for resisting the lateral thrust from the roof comprising an annular rolled steel stock section having an upright web and a lower inwardly extending flange and an inclined annular wall secured at its lower end to said flange and at its upper end to said web, thus forming an annular space for the circulation of cooling water, and water inlets and outlets communicating with said annular space.

4. In combination with a circular furnace and a partly spherical or dome shaped roof thereof, the outer bricks of which are stock size and shape and have substantially or approximately parallel radially extending faces and inner and outer faces substantially perpendicular thereto, an annular structure for resisting the substantially lateral thrust from the roof comprising an annular rolled steel commercial sections having an upright web, a lower inwardly extending flange, an inclined annular wall welded at its lower end to said flange and at its upper end to said web, thus forming an annular space for the circulation of cooling water, and water inlets and outlets communicating with said annular space.

5. In combination with a circular furnace and a partly spherical or dome shaped roof thereof, the outer bricks of substantially rectangular prismatic form of stock size and shape which have substantially or approximately parallel radially extending faces, an annular structure for resisting the substantially lateral thrust from the roof comprising an annular rolled metal section of stock form having an upright web, a lower inwardly extending flange, an inclined annular wall welded at its lower end to said flange and at its upper end to said web, thus forming an annular space for the circulation of cooling water, water inlets and outlets communicating with said annular space, and a partition disposed between the latter for compelling circulation throughout the length of said annular chamber.

HERMAN C. SCHULER.