US518523A - Reverberatory and regenerative furnace - Google Patents

Reverberatory and regenerative furnace Download PDF

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US518523A
US518523A US518523DA US518523A US 518523 A US518523 A US 518523A US 518523D A US518523D A US 518523DA US 518523 A US518523 A US 518523A
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furnace
blast
working chamber
uptake
checker
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F27FURNACES; KILNS; OVENS; RETORTS
    • F27DDETAILS OR ACCESSORIES OF FURNACES, KILNS, OVENS OR RETORTS, IN SO FAR AS THEY ARE OF KINDS OCCURRING IN MORE THAN ONE KIND OF FURNACE
    • F27D1/00Casings; Linings; Walls; Roofs
    • F27D1/02Crowns; Roofs
    • F27D1/021Suspended roofs
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F27FURNACES; KILNS; OVENS; RETORTS
    • F27BFURNACES, KILNS, OVENS OR RETORTS IN GENERAL; OPEN SINTERING OR LIKE APPARATUS
    • F27B3/00Hearth-type furnaces, e.g. of reverberatory type; Electric arc furnaces ; Tank furnaces

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  • This invention relates to an improved reverberatory and regenerative furnace for metallurgical operations which will be hereinafter fully described.
  • One ofthe improvements that I have in view is to insure a more perfect combustion of the gases in the working chamber of the furnace by the introduction of counter currents or blasts of air, either hot or cold, steam or gas, injected into the working chamber from the rear flue wall or from the side walls near said flue wall, whereby the escape of the gases and heat from the working chamber into the neck and thence to the uptake or stack will be damped or partially arrested to utilize the heat more perfectly and effect economy in the operation of the furnace.
  • I provide in the rear flue wall, on opposite sides of the neck or uptake of the furnace, a series of fiues, passages or checker work which extends from the base of the stack up to about the level of the roof,
  • FIG. 1 is a vertical longitudinal sectional View on the plane indicated by the dotted line, y y of Fig. 2 showing the checkerwork in the rear flue wall.
  • Fig. 2 is a horizontal sectional view on the plane indicated by the dotted line w as of Fig. 1.
  • Fig. 3 is a vertical cross sectional view through the rear flue wall,
  • Fig. 4. is a horizontal sectional View on the line 0 0 of Fig. 1 through the uptake and the checkerwork.
  • Fig. 5 is a longitudinal vertical sectional view on the line q q of Fig. 7 of another embodiment of my furnace employing a series of vertical flues in the rear flue wall in lieu of the checker-work.
  • Fig. 6 is a vertical transverse sectional view through the rear flue wall of the furnace shown by Fig. 5.
  • Fig. 7 is a horizontal sectional view on the line on m of Fig. 5.
  • Fig. 8 is a detail horizontal sectional view through the rear flue wall and uptake, the plane of the section being indicated by the dotted line 12 n of Fig. 5.
  • A designates the working chamber of the furnace; B is the primary combustion chamber, C is the bridge wall provided between the working and combustion chambers, D is.
  • the stack or uptake and E is the neck which connects the rear end of the working chamber and said stack or uptake, all of which are of the usual or any preferred construction and arrangement.
  • the rear flue wall F of the furnace is constructed to contain the fines, passages or checker-work and to receive a blast from the pipe G and discharge the blast in a heated condition, into the upper rear part of the working chamber to dam or arrest the rapid escape of the heat and gases from the rear part of the working chamber into the stack.
  • the rear flue wall is made hollow to provide two chambers H, I, which lie on opposite sides of the neck and uptake of the furnace but which do not receive heat or products of combustion from said working chamber, neck or uptake, or either of them,during the operation of the furnace; and said chambers H, I, extend from the base of the stack up to about the level of the roof of the furnace, at which points they are closed by suitable roofs or covers, see Fig. 3.
  • Each chamber is filled with checker- ,work J from its lower to its upper part, constructed in any approved or preferred manner, and tothese chambers are coupled the branches g, g, of the blast pipe G, the latter having a'valve g by which the supply of the blast to the checker-work in the chambers can be controlled or shut E.
  • the hot blast from the checker work chambers is discharged-into the upper rear part of the working chamberAthrough the series of converging ports K which are formed in the rear fi'ue wall j ust below the roof of the furnace and which are designed to receive from the chambers H, I, and to discharge counter currents in converging lines into the working chamber, as will be understood.
  • doors L, L For the purpose of heating the checkerwork to the required temperature before admitting the blast into the chambers H, l, I provide the doors L, L, in opposite sides of the bottom of the stack. These doors may be of any suitable variety, accessible from the rear side'of the stack through a suitable rear door, and by opening the doors L, L, when the furnace is first started, heat from the working chamber and stack can be admitted to the side chambers H, I, to heat up the checker-work, after which the doors L, L,
  • Each vertical passage or flue has a single discharge port K'which extends through or over the rear flue wall to discharge the blast from the passage fiue M into the upper rear part of the working chamber.
  • O is, the roof of the furnace which extends in a substantially horizontal direction over the working chamber to the stack or uptake; but the front part of this roof 0 is curved or inclined in a downward direction over the primary combustion chamber B, said curved or inclined part 0 of the roof extending substantially from the bridge wall 0 to the front wall a of the furnace.
  • This form of the roof over the primary combustion chamber causes the ascending gases and products of combustion to bedeiiected over the bridge wall and to speedily pass from the combustion chamber into the working chamber, in which latter chamber the gases and products of combustion are more thoroughly consumed and the heat utilized'to better advantage.
  • my furnace maybe briefly described as followsz-The fire is started in the combustion chamber B and the ascending gases and products of combustion are deflected by the curved roof 0 and quickly pass into the working chamber, thence through the neck and drawn up into the stack.
  • the heat raises the temperature of the walls, particularly the rear fiue wall, and to more expeditiously heat the checker-work in the embodiment of the furnace shown by Figs. 1 to 3 inclusive, the doors L, L, are opened to permit heat to pass from the stack into the checkerwork, after which the doors are closed.
  • the valve in the blast pipe G is opened to ad- 4 .ure into the upper rear part of the working chamber, the passage of the heat, gases and products of combustion from the working chamber into the neck and uptake is partially retarded or dammed and thus combustion is more thoroughly efiected in the working chamber and the heat utilized to better advantage.
  • the blast may also be introduced through the side walls of the furnace, near the rear flue walls thereof, and to this end I provide the longitudinalflues- P and the discharge ports Q in the side walls as shown more clearly in 'Figs. 2 and 7 of the drawings.
  • Each longitudinal flue' is located in the side wall near the roof 0, and the rear end thereof communicates with one of the vertical fines or the checkerwork to receive the blast therefrom, and the ports Q extend from the flue into the working chamber, as shown.
  • a furnace substantially such as herein shown and described, the combination with a working chamber, an uptake, anda neck, of the checker-work arranged in separate chambers formed in the rear flue wall on opposite sides of the uptake and neck, the blast pipe arranged to discharge into the lower part of said checker-work, and the series of discharge ports K formed in the rear flue wall and adapted to discharge the heated blast from the checker-work into the working chamber at the upper rear part thereof, substantially as and for the purposes described.
  • a furnace substantially such as herein shown and described, the combination with a working chamber, an uptake, and the neck, of the side chambers formed in the rear flue wall on opposite sides of the neck and uptake and having the doors L, L, on opposite sides of the stack normally closed, the checker- Work situated in said side chambers, the converging discharge ports K, K, formed in the rear flue wall to discharge the blast from the checker-work into the upper rear part of the working chamber, and the valved blast pipe having its branches connected to the lower parts of the side chambers, substantially as and for the purposes described.
  • a furnace substantially such as described, the combination with aworkingchamber, an uptake, and a neck, of the rear flue wall constructed with vertical lines or checkerwork and with discharge ports which lead counter currents from said fines or checkerwork into the upper rear part of the working chamber, the longitudinal flues in the side walls of the furnace which are connected to receive the blast from the dues or checkerwork and provided with discharge ports which lead the blast into the working chamber at the sides thereof, and a blast-pipe arranged to discharge to the fines or checkerwork of the rear flue-wall, substantially as and for the purpose described.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Vertical, Hearth, Or Arc Furnaces (AREA)
  • Waste-Gas Treatment And Other Accessory Devices For Furnaces (AREA)

Description

2 Sheets-Sheet 1.
(No Model.)
E. P. GRAY. REVERBERATORY AND REGBNERATIVE FURNACE. $10,518,523. Patented Apr. 17, 1894.
THE NATIUNL LITHGERIPHING COMPANY. WASHINGTON; u. c.
(No Model.) 2 Sheets-Sheet 2. E. P. GRAY.
REVERBERATORY AND REG-ENERATIVE FURNAGE. No. 518,523. Patented Apr. 17; 1894.
Fig. .5. 12 .6.
ATTORNEYS" m2 mmcmm. LWHOGRAPHING com-Any UNITED ST TES PATENT OFFICE.
EDWARD F. GRAY, OF BETHLEHEM, PENNSYLVANIA.
REVERBERATORY AND REGENERATIVE FURNACE.
SPECIFICATION forming part of Letters Patent No. 518,523, dated April 17,1894.
Application filed June 21, 1893. Serial No. 478,406. (Nomodeh) .To all whom it may concern.-
Be it known that I, EDWARD F. GRAY, a citizen of the United States, residingat Bethlehem, in the county of Northampton and State of Pennsylvania, have invented certain new and useful Improvements in Reverberatory and Regenerative Furnaces; and I do hereby declare the following to be a full, clear, and exact description of the invention, such as will enable others skilled in the art to which it appertains to make and use the same.
This invention relates to an improved reverberatory and regenerative furnace for metallurgical operations which will be hereinafter fully described.
One ofthe improvements that I have in view is to insure a more perfect combustion of the gases in the working chamber of the furnace by the introduction of counter currents or blasts of air, either hot or cold, steam or gas, injected into the working chamber from the rear flue wall or from the side walls near said flue wall, whereby the escape of the gases and heat from the working chamber into the neck and thence to the uptake or stack will be damped or partially arrested to utilize the heat more perfectly and effect economy in the operation of the furnace. ment of this end, I provide in the rear flue wall, on opposite sides of the neck or uptake of the furnace, a series of fiues, passages or checker work which extends from the base of the stack up to about the level of the roof,
and the blast is conveyed to these fiues, passages or checker-work by a suitable valved pipe which has branches leading to opposite sides of the uptake and neck, and as the blast passes through the fines, passages or checkerwork it is heated and is discharged through ports which open through the rear flue wall, just below the roof, into the rear part of the working chamber. I prefer to use checkerwork in the rear flue wall, and to provide openings, closed by suitable doors, on opposite sides of the stack at the base thereof. These doors can be opened to admit heat to the checker-work in order to bring the latter to the required temperature, after which the doors should be closed before turning on the blast from the pipe through the checker-work.
In the accompanying drawings, forming a 1 part of this specification, I have illustrated To the accomplish two difierent embodiments of the means for heating and discharging the blast through the rear flue wall into the working chamber, and in which Figure 1 is a vertical longitudinal sectional View on the plane indicated by the dotted line, y y of Fig. 2 showing the checkerwork in the rear flue wall. Fig. 2 is a horizontal sectional view on the plane indicated by the dotted line w as of Fig. 1. Fig. 3 is a vertical cross sectional view through the rear flue wall,
the stack and checker-work, on the line 2' z of Fig. 1. Fig. 4. is a horizontal sectional View on the line 0 0 of Fig. 1 through the uptake and the checkerwork. Fig. 5 is a longitudinal vertical sectional view on the line q q of Fig. 7 of another embodiment of my furnace employing a series of vertical flues in the rear flue wall in lieu of the checker-work. Fig. 6 is a vertical transverse sectional view through the rear flue wall of the furnace shown by Fig. 5. Fig. 7 is a horizontal sectional view on the line on m of Fig. 5. Fig. 8 is a detail horizontal sectional view through the rear flue wall and uptake, the plane of the section being indicated by the dotted line 12 n of Fig. 5.
Like lettersof reference denote corresponding parts in all the figures of the drawings, referring to which- A designates the working chamber of the furnace; B is the primary combustion chamber, C is the bridge wall provided between the working and combustion chambers, D is.
the stack or uptake and E is the neck which connects the rear end of the working chamber and said stack or uptake, all of which are of the usual or any preferred construction and arrangement.
The rear flue wall F of the furnace is constructed to contain the fines, passages or checker-work and to receive a blast from the pipe G and discharge the blast in a heated condition, into the upper rear part of the working chamber to dam or arrest the rapid escape of the heat and gases from the rear part of the working chamber into the stack.
In thepreferred embodiment of the invention illustrated by Figs. 1, 2 and 3, the rear flue wall is made hollow to provide two chambers H, I, which lie on opposite sides of the neck and uptake of the furnace but which do not receive heat or products of combustion from said working chamber, neck or uptake, or either of them,during the operation of the furnace; and said chambers H, I, extend from the base of the stack up to about the level of the roof of the furnace, at which points they are closed by suitable roofs or covers, see Fig. 3. Each chamber is filled with checker- ,work J from its lower to its upper part, constructed in any approved or preferred manner, and tothese chambers are coupled the branches g, g, of the blast pipe G, the latter having a'valve g by which the supply of the blast to the checker-work in the chambers can be controlled or shut E. The hot blast from the checker work chambers is discharged-into the upper rear part of the working chamberAthrough the series of converging ports K which are formed in the rear fi'ue wall j ust below the roof of the furnace and which are designed to receive from the chambers H, I, and to discharge counter currents in converging lines into the working chamber, as will be understood.
For the purpose of heating the checkerwork to the required temperature before admitting the blast into the chambers H, l, I provide the doors L, L, in opposite sides of the bottom of the stack. These doors may be of any suitable variety, accessible from the rear side'of the stack through a suitable rear door, and by opening the doors L, L, when the furnace is first started, heat from the working chamber and stack can be admitted to the side chambers H, I, to heat up the checker-work, after which the doors L, L,
should be securely closed so that heat and products of combustion from the furnace will not pass into either of the side chambers during the operation of the furnace.
In the modified construction of the furnace shown by Figs. 5 to 8, I dispense with the chambersand checker-work and construct the rear flue wall with the series of passages or fiues M. These fines or passages extend verticallyfrom the base of the stack up to the roof of the furnace, and they are arranged in parallel positionsand isolated so that they do not communicate with each other or with the neck or uptake of the furnace. The lower ends of the fines or passages are connected by a lateral horizontal passage N which is common to a series of vertical passages or lines, and to this lateral passage N are coupled the branches 9, g, of the valved blast pipe G.
1 Each vertical passage or flue has a single discharge port K'which extends through or over the rear flue wall to discharge the blast from the passage fiue M into the upper rear part of the working chamber.
O is, the roof of the furnace which extends in a substantially horizontal direction over the working chamber to the stack or uptake; but the front part of this roof 0 is curved or inclined in a downward direction over the primary combustion chamber B, said curved or inclined part 0 of the roof extending substantially from the bridge wall 0 to the front wall a of the furnace. This form of the roof over the primary combustion chamber causes the ascending gases and products of combustion to bedeiiected over the bridge wall and to speedily pass from the combustion chamber into the working chamber, in which latter chamber the gases and products of combustion are more thoroughly consumed and the heat utilized'to better advantage.
The operation of my furnace maybe briefly described as followsz-The fire is started in the combustion chamber B and the ascending gases and products of combustion are deflected by the curved roof 0 and quickly pass into the working chamber, thence through the neck and drawn up into the stack. The heat raises the temperature of the walls, particularly the rear fiue wall, and to more expeditiously heat the checker-work in the embodiment of the furnace shown by Figs. 1 to 3 inclusive, the doors L, L, are opened to permit heat to pass from the stack into the checkerwork, after which the doors are closed.
When the furnace is in working condition,
the valve in the blast pipe G is opened to ad- 4 .ure into the upper rear part of the working chamber, the passage of the heat, gases and products of combustion from the working chamber into the neck and uptake is partially retarded or dammed and thus combustion is more thoroughly efiected in the working chamber and the heat utilized to better advantage. The blast may also be introduced through the side walls of the furnace, near the rear flue walls thereof, and to this end I provide the longitudinalflues- P and the discharge ports Q in the side walls as shown more clearly in 'Figs. 2 and 7 of the drawings. Each longitudinal flue'is located in the side wall near the roof 0, and the rear end thereof communicates with one of the vertical fines or the checkerwork to receive the blast therefrom, and the ports Q extend from the flue into the working chamber, as shown.
, Having thus fully described my invention, what I claim as new, and desire to secure by Letters Patent, is
1. In a furnace, the combination with a working chamber, an uptake, and a neck, of the rear flue-wall constructed with two series of blast-fines situated respectively on opposite sides of theneck and uptake and converging, in the line of discharge of the blast, into the rear part of the working'chamber, fines or checker-work within said flue-wall, and a blast-pipe connected with said fluewall, to discharge thereto, whereby the blast isheated during its passage through the fines or checker-work and divided by the series of blast-fines to produce counter currents in the rear part of the working chamber, substantially as described. I
2. Ina furnace, substantially such as described, the combination with a working chain ber, an uptake, and a neck, of the rear fluewall constructed with vertical fines or checkerwork on opposite sides of the neck and uptake, and with discharge ports which are situated below the roof and lead from said fines or checkerwork into the working chamber to discharge counter currents into said chamber, and a branched blast-pipe connected to the flue-wall on opposite sides of the uptake to supply the blast to said vertical checkerwork or flues, substantially as and for the purpose described.
8. In a furnace, substantially such as herein shown and described, the combination with a working chamber, an uptake, anda neck, of the checker-work arranged in separate chambers formed in the rear flue wall on opposite sides of the uptake and neck, the blast pipe arranged to discharge into the lower part of said checker-work, and the series of discharge ports K formed in the rear flue wall and adapted to discharge the heated blast from the checker-work into the working chamber at the upper rear part thereof, substantially as and for the purposes described.
4. In a furnace, substantially such as herein described, the combination with a working chamber, an uptake, and a neck, of the fines or checkerwork formed in the rear flue wall on opposite sides of the neck and uptake, the series of discharge ports which converge toward the central line of the furnace and dis charge blast from the lines or checker-work into the upper'rear part of the working chamand for the purpose described.
5. In a furnace, substantially such as herein shown and described, the combination with a working chamber, an uptake, and the neck, of the side chambers formed in the rear flue wall on opposite sides of the neck and uptake and having the doors L, L, on opposite sides of the stack normally closed, the checker- Work situated in said side chambers, the converging discharge ports K, K, formed in the rear flue wall to discharge the blast from the checker-work into the upper rear part of the working chamber, and the valved blast pipe having its branches connected to the lower parts of the side chambers, substantially as and for the purposes described.
6. In a furnace, substantially such as described, the combination with aworkingchamber, an uptake, and a neck, of the rear flue wall constructed with vertical lines or checkerwork and with discharge ports which lead counter currents from said fines or checkerwork into the upper rear part of the working chamber, the longitudinal flues in the side walls of the furnace which are connected to receive the blast from the dues or checkerwork and provided with discharge ports which lead the blast into the working chamber at the sides thereof, and a blast-pipe arranged to discharge to the fines or checkerwork of the rear flue-wall, substantially as and for the purpose described.
In testimony whereof Iaffix my signature in presence of two witnesses.
EDWARD F. GRAY.
Witnesses:
HENRY KRAUSKOPF, JOSEPH BAKER.
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