US1515462A - Construction of open-hearth-furnace ports - Google Patents

Construction of open-hearth-furnace ports Download PDF

Info

Publication number
US1515462A
US1515462A US593277A US59327722A US1515462A US 1515462 A US1515462 A US 1515462A US 593277 A US593277 A US 593277A US 59327722 A US59327722 A US 59327722A US 1515462 A US1515462 A US 1515462A
Authority
US
United States
Prior art keywords
ports
furnace
fuel
air
construction
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
US593277A
Inventor
Jr George L Danforth
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Individual
Original Assignee
Individual
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Individual filed Critical Individual
Priority to US593277A priority Critical patent/US1515462A/en
Application granted granted Critical
Publication of US1515462A publication Critical patent/US1515462A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • 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; Tank furnaces
    • F27B3/002Siemens-Martin type furnaces

Definitions

  • This invention relates to a new and improved construction of open hearth furnace ports and more particularly to a construction involving the use of applurality of gas ports associated with a damper controlled A air port.
  • open hearth furnaces are double ended and are reversed in operation, each end serving alternately to introduce the fuel and air and to carry off the products of combustion.
  • the products of combustion largely exceed in volume the incoming air and fuel and consequently the ports must, be designed with a view of carrying off the larger volume of the products It is, however, necessary for ecient operation that the incoming air and fuel be properly intermingled and controlled to form a relatively short, hot flame properly directed upon the bath of metal in the furnace.
  • Figure 1 is a vertical longitudinal section showing one end of my furnace construction
  • Figure 2 is a horizontal section taken on line 2 2 of Figure l;
  • Figure 3 is a transverse section line 3 3 of Figure 1;
  • Figure 4c is a transverse sect-ion taken on line 4f-4: of Figure 1.
  • the slag pocket 7 is connected by uptake passage 8 with the central port 9 of the furnace.
  • The/ gas slag pocket 1() is connected by the passages 11 with the two lateral ports 12.
  • the uptake 8 is connected with the ports 12 by the lateral passages 13, these passages entering the rear of the ports.
  • the central port 9 is controlled by the vertically inovable damper 14 which moves in water-cooled guides 15I and is provided with the housing 16 extending above the furnace roof.
  • the nozzles 17 indicated in dotted lines may be provided for the introduction of liquid fuel or coke oven gas, if such fuels are used.
  • the lateral ports 12 incline inwardly toward the center line of the furnace as best taken on shown in Figure 2 and the furnace Walls inoline inwardly at 18 to meet the outer wall of the, lateral ports sothat a substantially continuous wall is formed Withy the smallest cross-sectional area of the furnace located immediately in advance of the ports.
  • the invention has been applied' to a tilting furnace, the furnace body 19 being separated from the furnace ends containing the ports. Obviously, the invention may be applied -to fixed furnaces Without change in the port construction from that shown.
  • the gas will be preheated in the usual regenerators and will pass up from slag pocket 10 through uptakes 11 into the ports 12. rfhe air will be preheated and reach the slag pocket 7 from the regenerators. From the slag pockets 7, it will pass through uptake S into the rear of the port 9. 'The damper 14 will be lowered to block olf the central port and the air will pass through the lateral passages 13 into the rear end of the ports 12. The air will mingle with the gas coming up' into the ports and the mixture of air and gas Will issue from the mouths of the ports.
  • rlhese ports are the proper size to give an adequately controlled flame and their inward inclination is such as to properly direct the flame upon the bath of metal in the furnace. lf it is desired to use coke 4 oven gas or liquid fuel, no gas Willl come l regenerators
  • the ⁇ damper 14 By raising the ⁇ damper 14 upon the out- ⁇ going end, the area available for passage of the products of combustion is greatly increased over that provided on the incoming end for the air and fuel. This greater area permits the products of combustion to be. carried of Without the necessity for the provision of auxiliaryldraft means.
  • the ports used for the introduction of the air and fuel may be of such area and contour Lei-sees as to provide an efficient and adequately controlled and directed flame.
  • a plurality of fuel ports located adjacent the side walls of the furnace, an air passa-ge, a port located intermediate said fuel ports, passages connecting the air passage and fuel ports, and a damper controlling the intermediate port.
  • a reversible regenerative furnace a plurality of fuel ports located adjacent the side Walls of the furnace, fuel passages entering the fuel ports, an air passage and a port connected thereto located' intermediate the fuel ports and passages connecting theV air passage and fuel ports, said passages yentering the fuel ports in the rear of the entrance of the fuel passages into said ports.
  • a reversible regenerative furnace a plurality of fuel ports located adjacent the side walls of the furnace, fuel passages entering the fuelports, an air passage and a port connectedthereto located intermediate the fuel ports, passages connecting the air passage and fuel ports, said passages entering the fuel ports in the rear of the entrance of the fuel passages, into said ports, and a movable damper adapted to close the air port.
  • laterally extending passages connecting the air uptake and the rear of the fuel ports, and a movable damper adapted to close the intermediate port and to deflect the air into the laterally extending passages.

Landscapes

  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)

Description

NW. M, 1924. 1,515,462
G. L. DANFORTH, JR
CONSTRUCTION OF OPEN HEARTH FURNACE PORTS Filedkst. 9, 1922 2 Sheets-Shesl Nov. u, i924. 1,515,462
G. L. DANFORTH, JR
CONSTRUCTION OF OPEN HEARTH FURNACE PORTS Filed Oct. 9, 1922 2 shee1ssheez 2 of combustion.
Patented Nov. ll, 1924i.
HT TA' GEORGE L. DANFORTH, JR., OF CHICAGO, ILLINOIS.
CONSTRUCTION OF .OPEN-HEARTH-FURNACE PORTS.
Application 1ed0ctober`9, 19.212. Serial No. 593,277.
To'all whom t may concern:
Be it known that I, GEORGE L. DANFORTH, Jr., a citizen of the United States, residing at Chicago, in the county of Cook and State of Illinois, have invented certain new and useful Improvements in the Construction of Open-Hearth-Furnace Ports, of which the following is a specification.
This invention relates to a new and improved construction of open hearth furnace ports and more particularly to a construction involving the use of applurality of gas ports associated with a damper controlled A air port.
As is well known in the art, open hearth furnaces are double ended and are reversed in operation, each end serving alternately to introduce the fuel and air and to carry off the products of combustion. The products of combustion largely exceed in volume the incoming air and fuel and consequently the ports must, be designed with a view of carrying off the larger volume of the products It is, however, necessary for ecient operation that the incoming air and fuel be properly intermingled and controlled to form a relatively short, hot flame properly directed upon the bath of metal in the furnace.
Certain furnaces have been designed with damper controlled ports upon each end of the furnace, these ports being closed olf upon the incoming end and servin on the outgoing end to aid in carrying off t e products of combustion.' A furnace of this type is shown in the patent to McKune, No. 1,339,855, datedMay 11, 1920. In these furnaces, two dampers are required, one in each of the supplemental discharge passages, and these dampers not only complicate the installation but due to their water-cooling, in-
-volve considerable heat losses.
` It is desirable in open hearth furnaces to separate the incoming fuel at each end -of the furnace into a plurality of small streams since the small streams will more readily mix with the air and will give a more rapid combustion. Another advantage of divided streams lies in their greater eciency in melting down a charge. A single central flame will be broken up by impinging upon the charge and will be deflected tothe walls and roof. rIvhis results not only in inecient heating but in damage to the furnace walls and roof. Cn the other hand the divided streams will meet upon the piled up charge and will efficiently melt it down. In the construction 'of separate ports the vfurnace side walls may be utilized as port walls so that but little additional brickwork is required over a single port furnace.
It is an object of the present invention to provide a new and improved ort construction wherein the intermingle fuel and air are introduced in a plurality of streams.
It is an additional ob] ect to provide a construction of this type wherein additional, selectively enlarged port area is provided for carrying off the products of combustion.
It is an additional object to provide a construction of this type in which the air passages communicate with the fuel and air ports, means being provided for selectively directing the air into the combined ports.
Other and further objects will appear as the description proceeds.
I have illustrated a preferred embodiment of my invention in the accompanying drawings, in which l Figure 1 is a vertical longitudinal section showing one end of my furnace construction;
Figure 2 is a horizontal section taken on line 2 2 of Figure l;
Figure 3 is a transverse section line 3 3 of Figure 1; and
Figure 4c is a transverse sect-ion taken on line 4f-4: of Figure 1.
It will be understood that the usual regenerative chambers and passa es will be provided in connection with the urnace, but these chambers form in themselves no art of alle present'invention and have not een shown.
The slag pocket 7 is connected by uptake passage 8 with the central port 9 of the furnace. The/ gas slag pocket 1() is connected by the passages 11 with the two lateral ports 12. The uptake 8 is connected with the ports 12 by the lateral passages 13, these passages entering the rear of the ports. The central port 9 is controlled by the vertically inovable damper 14 which moves in water-cooled guides 15I and is provided with the housing 16 extending above the furnace roof. The nozzles 17 indicated in dotted lines may be provided for the introduction of liquid fuel or coke oven gas, if such fuels are used.
The lateral ports 12 incline inwardly toward the center line of the furnace as best taken on shown in Figure 2 and the furnace Walls inoline inwardly at 18 to meet the outer wall of the, lateral ports sothat a substantially continuous wall is formed Withy the smallest cross-sectional area of the furnace located immediately in advance of the ports.
As shown in the drawings, the invention has been applied' to a tilting furnace, the furnace body 19 being separated from the furnace ends containing the ports. Obviously, the invention may be applied -to fixed furnaces Without change in the port construction from that shown.
In the operation ofthe furnace, the gas will be preheated in the usual regenerators and will pass up from slag pocket 10 through uptakes 11 into the ports 12. rfhe air will be preheated and reach the slag pocket 7 from the regenerators. From the slag pockets 7, it will pass through uptake S into the rear of the port 9. 'The damper 14 will be lowered to block olf the central port and the air will pass through the lateral passages 13 into the rear end of the ports 12. The air will mingle with the gas coming up' into the ports and the mixture of air and gas Will issue from the mouths of the ports. rlhese ports are the proper size to give an adequately controlled flame and their inward inclination is such as to properly direct the flame upon the bath of metal in the furnace. lf it is desired to use coke 4 oven gas or liquid fuel, no gas Willl come l regenerators By raising the `damper 14 upon the out- `going end, the area available for passage of the products of combustion is greatly increased over that provided on the incoming end for the air and fuel. This greater area permits the products of combustion to be. carried of Without the necessity for the provision of auxiliaryldraft means. The ports used for the introduction of the air and fuel may be of such area and contour Lei-sees as to provide an efficient and adequately controlled and directed flame.
l claim:
1. in a reversible regenerative furnace, a plurality of fuel ports located adjacent the side Walls of the furnace, an air passage, a discharge port located intermediate said fuel ports, and passages connect-ing the air passage and fuel ports.
2. In a reversible regenerative furnace, a plurality of fuel ports located adjacent the side walls of the furnace, an air passa-ge, a port located intermediate said fuel ports, passages connecting the air passage and fuel ports, and a damper controlling the intermediate port.
3. ln a reversible regenerative furnace, a plurality of fuel ports located adjacent the side Walls of the furnace, fuel passages entering the fuel ports, an air passage and a port connected thereto located' intermediate the fuel ports and passages connecting theV air passage and fuel ports, said passages yentering the fuel ports in the rear of the entrance of the fuel passages into said ports.
4f. ln a reversible regenerative furnace, a plurality of fuel ports located adjacent the side Walls o f the furnace, an air uptake and port connected thereto located intermediate said fuel ports and laterally extending passages connecting the uptake and the rear of the fuel ports.
5. ln a reversible regenerative furnace, a plurality of fuel ports located adjacent the side walls of the furnace, fuel passages entering the fuelports, an air passage and a port connectedthereto located intermediate the fuel ports, passages connecting the air passage and fuel ports, said passages entering the fuel ports in the rear of the entrance of the fuel passages, into said ports, and a movable damper adapted to close the air port.
6. In a reversible regenerative furnace, a plurality of fuel ports located adjacent the side walls of the furnace, an air uptake and a port located intermediate said fuel ports,-
laterally extending passages connecting the air uptake and the rear of the fuel ports, and a movable damper adapted to close the intermediate port and to deflect the air into the laterally extending passages.
Signed at Chicago, Illinois` this 4th day of October, 1922.
GEORGE L. DANFORTH, J n.
US593277A 1922-10-09 1922-10-09 Construction of open-hearth-furnace ports Expired - Lifetime US1515462A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US593277A US1515462A (en) 1922-10-09 1922-10-09 Construction of open-hearth-furnace ports

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US593277A US1515462A (en) 1922-10-09 1922-10-09 Construction of open-hearth-furnace ports

Publications (1)

Publication Number Publication Date
US1515462A true US1515462A (en) 1924-11-11

Family

ID=24374114

Family Applications (1)

Application Number Title Priority Date Filing Date
US593277A Expired - Lifetime US1515462A (en) 1922-10-09 1922-10-09 Construction of open-hearth-furnace ports

Country Status (1)

Country Link
US (1) US1515462A (en)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2435318A (en) * 1945-05-16 1948-02-03 Pennsylvania Engineering Works Water-cooled port structure for tilting hearth furnaces
US2634115A (en) * 1942-04-24 1953-04-07 Gen Refractories Co Head for regenerative furnaces

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2634115A (en) * 1942-04-24 1953-04-07 Gen Refractories Co Head for regenerative furnaces
US2435318A (en) * 1945-05-16 1948-02-03 Pennsylvania Engineering Works Water-cooled port structure for tilting hearth furnaces

Similar Documents

Publication Publication Date Title
US1515462A (en) Construction of open-hearth-furnace ports
US2179848A (en) Glass furnace and method of operation
US2182498A (en) Method of interoducing fuel into an open hearth furnace
US2257229A (en) Furnace
US1769210A (en) Furnace
US2844365A (en) Furnace for neutral heating of metal with neutral preheat
US3447920A (en) Process of melting scrap or another solid metallic charge
US1769493A (en) Open-hearth-furnace port
US2182497A (en) Apparatus for introducing fuel into an open hearth furnace
US1726606A (en) Furnace
US1627425A (en) Open-hearth furnace
US483752A (en) wainwright
US1769211A (en) Metallurgical furnace and port construction
US1832063A (en) Melting furnace
US2137892A (en) Furnace
US1769209A (en) Metallurgical-furnace construction
US1665086A (en) Open-hearth furnace
US1653507A (en) Regenerative furnace for melting glass
US1853409A (en) Regenerative furnace
US1740288A (en) Furnace and method of operating the same
US1710282A (en) Furnace port and method of operating the same
US1689563A (en) Furnace and method of operating the same
US1769212A (en) Furnace and port construction
US1769494A (en) Open-hearth furnace
US1769366A (en) Open-hearth port design