US1346223A - best available cop - Google Patents

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US1346223A
US1346223A US1346223DA US1346223A US 1346223 A US1346223 A US 1346223A US 1346223D A US1346223D A US 1346223DA US 1346223 A US1346223 A US 1346223A
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electrodes
electric
furnace
magnet
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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
    • H05B7/00Heating by electric discharge
    • H05B7/18Heating by arc discharge
    • H05B7/22Indirect heating by arc discharge

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  • LA'MnER'r0 LOMBARDI subject of the "King of Italy, residing at Rome, Italy, have invented new'and useful Improvements in Electric-Arc Furnaces, of nhiChthefollowing is a specification
  • This invention relates to improvements in electric arc furnaces, which utilize the high temperature of the electric are its action and effect-being increased by blowing the are against the object, the temperature of which must be elevated, such blowing of the electric are being obtained by the formation of a magnetic field conveniently directed against said electric arc.
  • my invention consists in the construction and combination of devices hereinafter set forth and claimed. The said invention may be applied with great advantage to many heating plants and other heating means, especially where fuel is dear, and where electric power may be obtained cheaply by water power, etc, the principal applications being:
  • Figure 1 shows in a diagrammatic way the arrangement of the electrodes and magnet as well as the conductors of the electric power.
  • Fig. 2 gives an instance of the application of the blown arc in a melting furnace
  • Figs. 3 and 4 are views respectively of the arrangement of the magnet and electrodes with modifications of cooperating parts.
  • 4 and 8 are the electrodes inclined convcrgingly to form with each other an angle at the apex of which is located the core of an electric magnet 10.
  • the conductors of the electric power from the source of energy are fixed to the contacts l and 2, from the former of which the current is led by means of a phase 3--which may be also a neutral wire-to the electrode 4. From the other terminal 2, another phase throu h the conductor 5 is led to the coil of the eTectric magnet 10 and from this through conductor 7 to the electrode 8.
  • Fig. 2 shows the construetlon arrangement of amelting furnaee according to this invention
  • Flgs. 3 and 4 showing details of the supports of the magnet and electrodes respectively on a largerscale
  • l. 11 is the wall of the furnace, which in the instance illustrated in Fig. 2 is shown as cir cularin its horizontal section, but it must be-understood that the furnace may be of anvdesirable shape.
  • he furnace-wall is supported by means of pillars 12 which are prolonged by walls 13 forming the chambers 14, where the molds may be placed for drying.
  • melt ing pot 15 against which the flames 16 of the are are blown by the magnetic field as shown by dotted lines in Fig. 2.
  • the electrodes as well as the magnets are shown as situated in a horizontal plane, but it must be understood that they may be placed into an inclined or even in a vertical position.
  • Fig. 3 the magnet 10 is represented as supported by collars 19 suspended from rails 20, which support the platform on which the workmen stand, and in Fig. 4 is shown one of the electrodes as supported by trolleys 17 rnnnin on rails 18 ending at the outer wall of t e furnace, the two trolleys of each pair of electrodes being connected to one another by means of any convenient connection, and each trolley being controlled in a suitable way as, for instance, by means of an endless screw.
  • the furnace has an upper opening closed by a movable plug 21, through which opening the process of melting may be controlled, such stopper being supplied with a gas escape 22.
  • An electric furnace having pairs of converging electrodes and a series of electro-magrnets. each presenting core to the outer side of the are formed by one of said pairs, and tracks and suspending devices for movably supporting said magnets to move them inwardly and outwardly.
  • tracks extending toward and from said are, means traveling along said; tracks and carrying said magnet core; and means for moving at least one of said electrodes toward or from the are at will.

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  • Physics & Mathematics (AREA)
  • Engineering & Computer Science (AREA)
  • Plasma & Fusion (AREA)
  • Vertical, Hearth, Or Arc Furnaces (AREA)
  • Furnace Details (AREA)

Description

L. LOMBARDI.
ELECTRIC ARC FURNACE.
LICATION FILED A AP 27. I919- 1,346,223, Patented July 13, 1920.
A MNE 4 To all whom it may concern;-
UNITE? .S A aES" PATENT OFFICE.
mmnn'a'ro LOMIBARDI, oraomn, irALY.
ELECTRIC-ARC rpnnacn.
Be itknown'that I," LA'MnER'r0 LOMBARDI, subject of the "King of Italy, residing at Rome, Italy, have invented new'and useful Improvements in Electric-Arc Furnaces, of nhiChthefollowing is a specification,
This invention relates to improvements in electric arc furnaces, which utilize the high temperature of the electric are its action and effect-being increased by blowing the are against the object, the temperature of which must be elevated, such blowing of the electric are being obtained by the formation of a magnetic field conveniently directed against said electric arc. To this end my invention consists in the construction and combination of devices hereinafter set forth and claimed. The said invention may be applied with great advantage to many heating plants and other heating means, especially where fuel is dear, and where electric power may be obtained cheaply by water power, etc, the principal applications being:
Melting furnaces, metal heating plants, precious metal furnaces, artificial or precious stone furnaces, glass works, hardening case, bakeries, apartment heating boilers, baths, large kitchens for hospitals, barracks, etc, ironsmith forges, hardening forges, chemist flames, etc.
In the accompanying drawing:
Figure 1 shows in a diagrammatic way the arrangement of the electrodes and magnet as well as the conductors of the electric power.
Fig. 2 gives an instance of the application of the blown arc in a melting furnace, and
Figs. 3 and 4 are views respectively of the arrangement of the magnet and electrodes with modifications of cooperating parts.
4 and 8 are the electrodes inclined convcrgingly to form with each other an angle at the apex of which is located the core of an electric magnet 10.
The conductors of the electric power from the source of energy, are fixed to the contacts l and 2, from the former of which the current is led by means of a phase 3--which may be also a neutral wire-to the electrode 4. From the other terminal 2, another phase throu h the conductor 5 is led to the coil of the eTectric magnet 10 and from this through conductor 7 to the electrode 8.
When the current is flowing, it excites at the same time both the electrodes 4 and 8 and the magnet 10, and while an electric Patented July 13, 1920.
Application filed January 27, 1919. Serial No. 273,339.
are is formed between the ends of the electrodes, a-ma-gnet1c field will be extended from the magnet, blowin axially the flames of the are as shown in *1gs.i1 and 2.
As has been said, Fig. 2 shows the construetlon arrangement of amelting furnaee according to this invention; Flgs. 3 and 4 showing details of the supports of the magnet and electrodes respectively on a largerscale. l. 11 is the wall of the furnace, which in the instance illustrated in Fig. 2 is shown as cir cularin its horizontal section, but it must be-understood that the furnace may be of anvdesirable shape.
he furnace-wall is supported by means of pillars 12 which are prolonged by walls 13 forming the chambers 14, where the molds may be placed for drying.
The electrodes 4: and 8 as well as the magnet 10, enter the furnace chamber through previously prepared holes.
In the center of the furnace chamber, and conveniently supported, is placed the melt ing pot 15, against which the flames 16 of the are are blown by the magnetic field as shown by dotted lines in Fig. 2.
In the drawing I have illustrated a circular shaped furnace, and I have set three pairs of electrodes equally spaced from one another, but it is obvious that some other shape may be given to the furnace and a different number of electrodes may be arranged to the different objects. Rectangular furnaces with more than one melting pot and two or more pairs of electrodes to each pot may be preferred if convenient.
The electrodes as well as the magnets are shown as situated in a horizontal plane, but it must be understood that they may be placed into an inclined or even in a vertical position.
In Fig. 3 the magnet 10 is represented as supported by collars 19 suspended from rails 20, which support the platform on which the workmen stand, and in Fig. 4 is shown one of the electrodes as supported by trolleys 17 rnnnin on rails 18 ending at the outer wall of t e furnace, the two trolleys of each pair of electrodes being connected to one another by means of any convenient connection, and each trolley being controlled in a suitable way as, for instance, by means of an endless screw.
The furnace has an upper opening closed by a movable plug 21, through which opening the process of melting may be controlled, such stopper being supplied with a gas escape 22.
Having now particularly described and ascertained the nature of my invention an in what manner the same is to be performed. I declare that what I claim is:
1. The combination of the wall of an electric furnace with pairs of converging electrodes extending inward through said wall to form an electric are between the tips of each pair, of electro-magnets having longitudinally movable cores also extending inward through said wall, one core being presented to each are on the outer side. and elwtric circuit connections arranged to simultaneously energize the said electrodes and magnet/s. the said ems being arranged to cooperate in heating any article between them.
.3. An electric furnace having pairs of converging electrodes and a series of electro-magrnets. each presenting core to the outer side of the are formed by one of said pairs, and tracks and suspending devices for movably supporting said magnets to move them inwardly and outwardly.
3. In combination with an electric furna/ce wall, devices for producing a circular series of electric arcs within the same, electrode movable toward and from said arcs, means for supporting said electrode in such motion, and tracks. on .which said supportmg means run.
4. In combination with a pair of tronverging electrodes forming an arm-an electro-magnet core arranged for blowing said are. tracks extending toward and from said are, means traveling along said; tracks and carrying said magnet core; and means for moving at least one of said electrodes toward or from the are at will.
In testimony whereof I have signed my name to this specification in the-presence of two subscribing witnesses.
Pamsr IJEONIDA Anroivso M. MASSANIO.
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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2652440A (en) * 1950-07-18 1953-09-15 Battelle Development Corp Electric arc melting furnace

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2652440A (en) * 1950-07-18 1953-09-15 Battelle Development Corp Electric arc melting furnace

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