US950904A - Electric furnace. - Google Patents

Electric furnace. Download PDF

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Publication number
US950904A
US950904A US49572609A US1909495726A US950904A US 950904 A US950904 A US 950904A US 49572609 A US49572609 A US 49572609A US 1909495726 A US1909495726 A US 1909495726A US 950904 A US950904 A US 950904A
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United States
Prior art keywords
chamber
furnace
melting chamber
resister
heat
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Expired - Lifetime
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US49572609A
Inventor
Francis A J Fitz Gerald
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IMBERT PROCESS Co
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IMBERT PROCESS Co
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Priority to US49572609A priority Critical patent/US950904A/en
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    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05BELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
    • H05B3/00Ohmic-resistance heating
    • H05B3/62Heating elements specially adapted for furnaces
    • H05B3/64Heating elements specially adapted for furnaces using ribbon, rod, or wire heater
    • 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
    • F27D11/00Arrangement of elements for electric heating in or on furnaces
    • F27D11/02Ohmic resistance heating

Definitions

  • the invention is also concerned with .the provision of means for controlling both the character and application of the fuel heat whereby it may be employed independently of the electric heat- .to deliver, at will, directly to the furnace chamber, an oxidizing, neutral or reducing flame, or to act concurrently with the electric means to heat the furnace only by conduction and thus serve as a partial resistant to the loss of electric heat.
  • Figure 1 is a view in central longitudinal section of one embodiment thereof and, Fig. 2 is a view in central transverse section.
  • the furnace the main body of which is indicated at a, is provided with a cover I), a melting or furnace chamber 0, electric heating means such as a carbon resister d, and terminals 6 for the resistor, the path of the current being indicated by the arrQWs f.
  • the resister may be formed by aggregating a considerable number of carbon rods in contact, right and left, with the terminals, the vdetails of which need not be here referred to. Suflice it to state, in this connection, that a wide range of resistivity can be obtained as also very uniform and high temperatures. But in the present instance the bottom of the resister is separated from the furnace chamber by an interposed plate or plates 9 of refractory material, preferably of ow resistance to heat transmission. The function of this septum will be pointed out farther on. that the furnace chamber can be effectively heated electrically by the superimposed raant ceiling.
  • the fuel gas is introduced through a tube h, passes along the space 2', as indicated by the arrows above the resister, and thence into and down the duct 7'.
  • a tube is leading into this duct, at the bottom, is a tube is through which air, either cold or recuperated, is forced, as. indicated by the arrow, mixing with the gas, thence passing, in combustion, into and through the furnace chamber.
  • the latter is preferably formed of refractory U-shaped sections, as Z, having flanges Z which impinge upon the brick-work. These flanges have a series of openings Z whereby the spaces at the sides and below the sections are in communication with each other. Two openings m are also provided in the upper sides near one end of the chamber.
  • a tube 01. moreover, connects with the space surrounding the furnacechamber sections.
  • the character of the flame can be readily controlled, but where it is necessarily highly oxidizing, this would act detrimentally upon the carbon resister, if unprotected; consequently, it is the function of the plate, or plates 9 to act as a barrier to protect the reslster.
  • the fuel gas may also be concurrently employed to advantage.
  • two additional tubes 0 are situated in the side walls of the furnace, these being plugged when the furnace chamber is being normally fuel heated, as described.
  • the flow of fuel-heat will then be directly opposite to that denoted by the arrows finally passing out of the furnace through the tubes 0 as shown by arrows.
  • the advantage of this application of fuel-heat is to act as a par tial resistant to the loss of electric heat by conduction and radiation.
  • Another advantageous utilization of the fuel gas is to introduce such gas in sufiicient volume into the furnace chamber to prevent the entry of air, for when the resister is highly heated and the internal heat pressure in the furnace chamber is less than the external pressure, as might occur, for in stance, during the temporary periods of charging, air would be drawn into the furnace until the internal pressure were equivalent to the atmospheric pressure without.
  • inert producer gas may be introduced into the furnace chamber to maintain the internal pressure at least equal to the external atmospheric pressure, the small amount of carbon monoxid gas left thereby in the chamber would be far less harmful to the carbon resister than the oxygen or carbon dioxid gas which would most likely be present if the fuel gas were not used.
  • the furnace chamber may be conveniently charged through the plugged opening 9, and emptied by the tap-spout 1'.
  • An electric furnace having means to permit gaseous fuel to pass in a circuit first through the melting chamber and then around it.
  • An electric furnace provided with aresister directly above the melting chamber and having means to introduce gaseous fuel into and around the melting chamber.
  • An electric furnace provided with a resister directly above the melting chamber and having means to permit gaseous fuel to pass around said resister into the melting chamber and then around the melting chamber.
  • An electric furnace provided with a resister facing the melting chamber and ea eoa having means to introduce gaseous fuel into the melting chamber, the resister and melting chamber being separated by an interposed plate of refractory material.
  • An electric furnace provided with a resister directly above the melting chamber, and having means to introduce gaseousifuel into and around the melting chamber, the resister and melting chamber being separated by an interposed plate of refractory material.
  • the combination of a resister, means to introduce gaseous fuel, and means to protect the resister from the oxidizing influence of the gaseous fuel in an electric furnace, the combination of a resister, means to introduce gaseous fuel, and means to protect the resister from the oxidizing influence of the gaseous fuel.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Vertical, Hearth, Or Arc Furnaces (AREA)
  • Furnace Details (AREA)

Description

F. A. J. FITZ GERALD.
ELECTRIC FURNACE. AAAAAAAA IOIN FILED MAY 13 1909.
Patented Mar. 1, 1910.
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UNITED STATES PATENT ormoa.
FRANCIS A. J'. FITZ GER ALID, OF NIAGARA FALLS, NEW YORK, ASSIGNOR T0 IMBERT PROCESS COMPANY, OF NEW YORK, N. Y., A. CORPQRATION OF NEW YORK.
ELECTRIC FURNACE.
Specification of Letters ratent.
Patented Mar. 1, 1910.
Application filed May 13, 1909. Serial No. 495,726.
To all it may concern:
Be it known that I, FRANCIS A. J. Frrz GERALD, a subject of the King of Great Britain, and a resident of Niagara Falls, in the county of Niagara and State of New York, have invented certain new and useful Improvements in Electric Furnaces, of which the following is a specification, reference being had to ,the accompanying drawings, forming a part hereof.
It is well known that in attaining higher rangeslof temperature, electric energy can be used most 'efliciently when the load, or peak, is approaching the maximum, and that fuel, on .the other hand, can be most efiiciently employed to raise the temperature of a mass from the usual normal to a relatively moderately high temperature.
It is the main ob ect of the present invention to provide a furnace in which advantage may be taken of this well known fact, or, in other words, to combine in a single furnace-unit a means for applying fuel to heat the furnace from normal temperatures up to higher temperatures and an electric heating means to attain the higher ranges of temperature.
The invention is also concerned with .the provision of means for controlling both the character and application of the fuel heat whereby it may be employed independently of the electric heat- .to deliver, at will, directly to the furnace chamber, an oxidizing, neutral or reducing flame, or to act concurrently with the electric means to heat the furnace only by conduction and thus serve as a partial resistant to the loss of electric heat.
In the depiction of the nvention disclosed in the accompanying drawings, Figure 1 is a view in central longitudinal section of one embodiment thereof and, Fig. 2 is a view in central transverse section.
The furnace, the main body of which is indicated at a, is provided with a cover I), a melting or furnace chamber 0, electric heating means such as a carbon resister d, and terminals 6 for the resistor, the path of the current being indicated by the arrQWs f.
The resister may be formed by aggregating a considerable number of carbon rods in contact, right and left, with the terminals, the vdetails of which need not be here referred to. Suflice it to state, in this connection, that a wide range of resistivity can be obtained as also very uniform and high temperatures. But in the present instance the bottom of the resister is separated from the furnace chamber by an interposed plate or plates 9 of refractory material, preferably of ow resistance to heat transmission. The function of this septum will be pointed out farther on. that the furnace chamber can be effectively heated electrically by the superimposed raant ceiling.
The fuel gas is introduced through a tube h, passes along the space 2', as indicated by the arrows above the resister, and thence into and down the duct 7'. Leading into this duct, at the bottom, is a tube is through which air, either cold or recuperated, is forced, as. indicated by the arrow, mixing with the gas, thence passing, in combustion, into and through the furnace chamber. The latter is preferably formed of refractory U-shaped sections, as Z, having flanges Z which impinge upon the brick-work. These flanges have a series of openings Z whereby the spaces at the sides and below the sections are in communication with each other. Two openings m are also provided in the upper sides near one end of the chamber. A tube 01. moreover, connects with the space surrounding the furnacechamber sections.
Now, the flame in. the chamber will p'ass therefrom, right and left, .through the openings m as shown by the arrows, thence into the common spaces around the chamber, the products of combustion finally passing back It will be perceived, however,
and out of the furnace, through the tube n, 1
electric energy. Moreover, the character of the flame can be readily controlled, but where it is necessarily highly oxidizing, this would act detrimentally upon the carbon resister, if unprotected; consequently, it is the function of the plate, or plates 9 to act as a barrier to protect the reslster.
When the furnace chamber is being heated electrically, the fuel gas may also be concurrently employed to advantage. To this end two additional tubes 0 are situated in the side walls of the furnace, these being plugged when the furnace chamber is being normally fuel heated, as described. Thus, by closing the tubes 72. and is and introducing gas and air through the tube 12., the flow of fuel-heat will then be directly opposite to that denoted by the arrows finally passing out of the furnace through the tubes 0 as shown by arrows. The advantage of this application of fuel-heat is to act as a par tial resistant to the loss of electric heat by conduction and radiation.
Another advantageous utilization of the fuel gas is to introduce such gas in sufiicient volume into the furnace chamber to prevent the entry of air, for when the resister is highly heated and the internal heat pressure in the furnace chamber is less than the external pressure, as might occur, for in stance, during the temporary periods of charging, air would be drawn into the furnace until the internal pressure were equivalent to the atmospheric pressure without. Where, as in the present case, inert producer gas may be introduced into the furnace chamber to maintain the internal pressure at least equal to the external atmospheric pressure, the small amount of carbon monoxid gas left thereby in the chamber would be far less harmful to the carbon resister than the oxygen or carbon dioxid gas which would most likely be present if the fuel gas were not used.
The furnace chamber may be conveniently charged through the plugged opening 9, and emptied by the tap-spout 1'.
. I claim as my invention:
1. An electric furnace having means to permit gaseous fuel to pass in a circuit first through the melting chamber and then around it.
2. An electric furnace provided with aresister directly above the melting chamber and having means to introduce gaseous fuel into and around the melting chamber.
8. An electric furnace provided with a resister directly above the melting chamber and having means to permit gaseous fuel to pass around said resister into the melting chamber and then around the melting chamber.
4. An electric furnace provided with a resister facing the melting chamber and ea eoa having means to introduce gaseous fuel into the melting chamber, the resister and melting chamber being separated by an interposed plate of refractory material.
5. An electric furnace provided with a resister directly above the melting chamber, and having means to introduce gaseousifuel into and around the melting chamber, the resister and melting chamber being separated by an interposed plate of refractory material.
6. In an electric furnace, the combination of a melting chamber formed with a space therearound and having a resister thereabove, and means to introduce gaseous fuel into the chamber and to direct it around the chamber.
7. In an electric furnace, the combination of a melting chamber formed with a space therearound, a resister directly over the chamber having a space above it communicating with the melting chamber.
8. In an electric furnace, the combination of a melting chamber formed with a space therearound communicating with said chamber, a resister directly over the melting chamber having a space above it communicating with the melting chamber.
9. In an electric furnace, the combination of a melting chamber, and a resister directly over the chamber,-there being a space above the resister communicating with one end of the melting chamber and a space around the melting chamber communicating with the other end of the melting chamber.
10. In an electric furnace, the combination of a resister, means to introduce gaseous fuel, and means to protect the resister from the oxidizing influence of the gaseous fuel.
11. In an electric furnace, the combina tion of a melting chamber and a resister above the same, said furnace having a circuit for gaseous fuel around the resister into the meltlng chamber and then around the melting chamber to heat the 'bath up to the economical apex of fuel heat, and a circuit for gaseous fuel around the melting chamber only to act as a partial resistant to the loss of electric heat.
12. In an electric furnace, the combination of a melting chamber, a resister above the melting chamber an interposed plate of refractory material, means to introduce gaseous fuel above the resister, around one end of the same into one end of the melting chamber and from the other end of the melting chamber around the melting chamber in order to heat the bath up to the economical apex of fuel heat, and means to introduce gaseous fuel around the melting chamber only in order to provide a partial resistant to the loss of electric heat.
13. In an electric furnace, the combination of a melting chamber, means to heat the j to confine the fuel flame around the melting chamber so that it will heat the contents only by conduction.
This specification signed and witnessed this 11th day of May, A. D. 1909.
FRANCIS A. J. FITZ GERALD.
Signed in the presence of GRACE MGGRANN,
LUoIUs E. VARNEY.
US49572609A 1909-05-13 1909-05-13 Electric furnace. Expired - Lifetime US950904A (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2680144A (en) * 1954-06-01 Electric furnace

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2680144A (en) * 1954-06-01 Electric furnace

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