US1553379A - Refractory resistor element - Google Patents

Refractory resistor element Download PDF

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US1553379A
US1553379A US617758A US61775823A US1553379A US 1553379 A US1553379 A US 1553379A US 617758 A US617758 A US 617758A US 61775823 A US61775823 A US 61775823A US 1553379 A US1553379 A US 1553379A
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members
refractory
conducting
resistor
portions
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US617758A
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Rudolf E Hellmund
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CBS Corp
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Westinghouse Electric and Manufacturing Co
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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

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  • My invention relates to electrrcfurnaces and particularly-torefractory resistance elements for such furnaces.
  • the object of my invention is to provide a relatively simple construction for refrac toryresistance elements for electric resistance furnaces.
  • a furnace structure comprising a plurality of heat-insulating walls enclosing a furnace chamber, in which is located a built-up heating element comprising a plurality of individual refractory resistor members.
  • Suitable resilient compressin means is provided tomaintain the plura ity of resistor members in close operative engagement with each other.
  • Each of the refractory resistor members comprises a current-conducting portion, of suitable area in lateral section, and com prising a position-stabilizing portion integral-therewith or suitably secured thereto.
  • FIG. 1 is a view, in vertical section, of an electric resistance furnace embodying my invention
  • FIG. 2 is a view, in perspective, of one form of refractory resistor member comprising my invention
  • Figs. 3 and 4 are views, in perspective, of a modified form of refractory member embodying my invention
  • Figs. 5, 6 and 7 are views, in perspective, of further modifications
  • Fig. 8 is a view, in'perspective, of a plurality of refractory resistor members illustrating another modification
  • Figs. 9 and 10 are views, in perspective, of
  • Fig. 11 is a view, in perspective, of a modification of the construction illustrated. in
  • An electric resistance furnace 21 comprises an outer sheet metal casing 22 and a plurality of supporting members 23 suitably secured thereto.
  • An outer layer 24 comprises a plurality of bricks or blocksof suitable heat-insulating refractory material usually employed in the art.
  • An inner layer 25 comprises a plurality of bricks or blocks of suitable refractory high-temperature-re- .sisting material.” The two linings are so located and spaced as to enclose an oven chamber which may be divided .into a heating compartment 26 and a-work-receivingcompartment 27 by a suitable refractory plate or diaphragm 28 which is supported by the inner lining 25.
  • An opening 29 permits of placing material within and removing it from the work-receiving compartment 27.
  • a heating element 31, located within the heating compartment 26, comprises a plurality of refractory resistor members 32 to be hereinafter described in detail.
  • the resistor members-32 are located in abutting circuit terminal member 35 operatively engages the outerend of the electrode 33, suitable provision being made in the co-operating members to permit of close operative engagement therebetween.
  • Resilient compressing means for each of the electrodes comprises a helical spring 36, one end of which engages a block 37 located adjacent to the outer surface of the electric circuit terminal 35, a block 38 of a suitable electric-insulating material being placed therebetween to insulate the compressing structure from the electrode and the terminal.
  • Adjusting means for the compressing means comprises a threaded rod 39, which is adjustable in a fixed member 41 by hand wheel 42.
  • Each of the refractory electric conducting resistor members 32 comprises a currentconducting portion 43 located adjacent to one edge of'the member 32 and a positionstabilizing or position-maintaining portion 5 depending portion and a member 45 extending laterally from the ortion 44 adjacent to the lower edge thereof and having a dovetail connection therewith.
  • the member 45 may be of material'that is substantially the same as composes the portions 43 and 44,
  • the ob ect of this construction is to cause substantially It; all of the curi ent traversing .the heating element 31 to flow through the electricconducting portions 43, whereby substantially all of the heat is generated in a predetermined portion of the heating element 31,
  • each of the refractory resistor members As the resistance of the position-stabilizing portion of each of the refractory resistor members is relatively high only a very small portion of the current will traverse the respective position stabilizing portions, it being understood, of course, that the member 45 extends beyond the surface of the por member '48-of substantia tion- 44 a distance that-is substantially the saine as the thickness of the projecting part of the portion 43 that extends beyond the portion 44.
  • a plurality of rods 46 may be employed, as illustrate in Fig. 3 of the drawing, preferably two rods being employed.
  • the rods 46 may either be' molded in place in the portion :44 or suitable openings may be provided in this portion to permit of loosely placing the rods 46 in their proper operative position in the 'portion 44 when building up the heating element.
  • I may emplo a relatively short bar 47 which is mounted in the portion 44 adjacent the lower edge thereof, a Suitable groove or chamber being rovided in the ortion 44', to permit of seating the bar 47 t erein.- 1
  • I have illustrated modi- .fications which I may employ, and in which the current conducting portions 43 has socured thereto either a osition-stabilizing lly L shape in section, or a member 49 ofv substantially T- shape 'in'section.
  • the members 48 and 49 are respectively secured to the portion 43 by a dove-tail joint and the'niaterialconstituting portions 48 and 49 is either of relatively high electric resistance or .is electrically non-conducting.
  • the current-conducting portion 43 and the depending portion 44 are integral and toether constitute a member of- 'substantially -shape in section.
  • Two bars 51 are secured to the portion 44 adjacent to the lower edge thereof, asuitable groove being provided on each face of the portion 44 to permit of placing therein an edge portion of the members 51.
  • The-members 51 comprise either a relatively high electric resistance material or a material which is electrically non-conductive, even at high temperatures. It is, of course, understood that the spacing members hereinbefore described, constituted by the-laterally projecting portions of the members 48 and 49 and the members 51 are respectively of such lateral thickness that they'will cooperate with the current conducting portion 43 to build up a heating element wherein the portions 44 are. in substantially parallel alinement throughout.
  • Fig. 8 illustrates another modification which I may employ in which th members 52 comprise refractory electric-conducting members of wedge shape in lateral section the-upper portions of which are provided with parallel extending surfaces 53 which are located in abut-ting relation in the builtup heating element.
  • the wedge shaped portions of the members 52 constitut the position'stabilizing portions and are provided with laterally extending plates or bars 54 secured to the members 32 adjacent the lower edge thereof, the. projection of the bars 54 being such as will cause the surfaces 53 of adjacent members 52 to be parallel .to' each other,
  • a plurality of current-conducting members 55 of relatively small area in cross-section are molded into position-stabilizing portions 56 of relatively larger area.
  • the members 55 may comprise bars of a suitable refractory electric-conducting material, the thickness of the bars being slightly. greater than the thickness of the position-stabilizing portions 56.
  • the portions 56 comprise refractory material which is either ofrelatively high electric-resistance or is electrically nonconducting.
  • FIG. 11 I have illustrated a modified form of the construction illustrated in Figs. 9 and 10, which I may employ if the resistance of the bars 55 is found to be relatively high.
  • I employ a plurality'of spaced rods 57 which are molded into the position-stabilizing portions 66 as hereinbefore' described and are slightly longer than the thickness of the portions 56.
  • the device embodying my invention may be built in a variety of forms, each of which comprises a current conducting portion, a position stabilizing portion either integral therewith, secured to or molded around such current conducting portion.
  • a plurality of such members may be built up into a heating element which is located between resilient compressing means and is effective to localize the path of the current therethrough and, therefore, localizes the portion in whiclrthe heat is generated by the current traversing it.
  • An electric furnace resistor COIIlPllSlIlg a plurality of refractory electrical-conducting members located in abutting relation, each member having a position-stabilizing portion of large area relatively to said conducting member and integral therewith.
  • a plurality of unitary refractory members each member comprising an electrical-conducting portion and a position-stabilizing portion.
  • a plurality of unitary refractory members each member comprising an electrical-conducting portion and a position-stabilizing portion extending at substantially a right angle to said conducting portion.
  • each member comprising an electrical-conducting portion and a position-stabilizing portion having inherent means for reducing the amount of current traversing the same.
  • a plurality of refractory electricalconducting members of relatively small transverse area, located in abutting relation, each member having an integral positionstabilizing portion of large transverse area relatively to said conducting members, said position-stabilizing portion extending at substantially a right angle to said conducting member and comprising inherent means for reducing the amount of current traversing the same.
  • a resilient compressing means comprising a plurality of refractory electrical-conducting members of relatively small transverse area maintained in close operative engagement with each other by said compressing means, each of said conducting members having means integral therewith for maintaining said members in proper operative positions relatively to each other.
  • a resilient compressing means comprising a plurality of refractory electrical-conducting members of relatively small transverse area maintained in close operative'engagement with each other by said compressing means, each of said conducting members having means integral therewith for maintaining said members in proper operative positions relatively to each other, and for reducing the amount of current traversing said position-maintaining means.
  • a plurality of refractory electricalconducting members each member having an integral portion extending at substantially a right angle to said conducting member and comprising a spacing member adjacent its other end.

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Description

A 44 :35 d b Sept. 15. 1925. 1,553,379
. R. E. HELLMUND REFRACTORY RES I STOR ELEMENT Filed Feb. 192-3 79 mg; fig I 79 7 9 WITNESSES: INVENTOR 5.?W mwph fifid/mund w ATTORNEY resident of Swissvale,
Patented Sept. 15, 1925.
UNITED -STATES PATENT OFFICE.
BUDOLF E. HELLMUNI OF SWISSVALE, PENNSYLVANIA, ASSIGNO'R TO WESTING- HOUSE ELECTRIC & MANUFACTURING COMPANY, A CORPORATION OF PENNSYL- YANIA.
REFRACTORY RESISTOR ELEMENT.
. Application filed February 8, 1823. Serial No. 617,758.-
To all whom it may concern:
' Be it known that I, RUDOLF. E. HELL- MUND, a citizen of the United States, and a in the county of Allegheny and State of Pennsylvania, have invented a new and useful Improvement in Refractory Resistor'Elements, of which the following is a Specification.
My invention relates to electrrcfurnaces and particularly-torefractory resistance elements for such furnaces.
The object of my invention is to provide a relatively simple construction for refrac toryresistance elements for electric resistance furnaces.
In practicing my invention,'I provlde a furnace structure comprising a plurality of heat-insulating walls enclosing a furnace chamber, in which is located a built-up heating element comprising a plurality of individual refractory resistor members. Suitable resilient compressin means is provided tomaintain the plura ity of resistor members in close operative engagement with each other.
Each of the refractory resistor members comprises a current-conducting portion, of suitable area in lateral section, and com prising a position-stabilizing portion integral-therewith or suitably secured thereto.
In the single sheet of drawing,
Figure 1 is a view, in vertical section, of an electric resistance furnace embodying my invention,
Fig. 2 is a view, in perspective, of one form of refractory resistor member comprising my invention Figs. 3 and 4 are views, in perspective, of a modified form of refractory member embodying my invention,
Figs. 5, 6 and 7 are views, in perspective, of further modifications,
Fig. 8 is a view, in'perspective, of a plurality of refractory resistor members illustrating another modification,
Figs. 9 and 10 are views, in perspective, of
refractory resistor members illustrating a further modification of my invention, and
Fig. 11 is a view, in perspective, of a modification of the construction illustrated. in
Fig. 9 of the drawing.
An electric resistance furnace 21 comprises an outer sheet metal casing 22 and a plurality of supporting members 23 suitably secured thereto. An outer layer 24 comprises a plurality of bricks or blocksof suitable heat-insulating refractory material usually employed in the art. An inner layer 25 comprises a plurality of bricks or blocks of suitable refractory high-temperature-re- .sisting material." The two linings are so located and spaced as to enclose an oven chamber which may be divided .into a heating compartment 26 and a-work-receivingcompartment 27 by a suitable refractory plate or diaphragm 28 which is supported by the inner lining 25. An opening 29 permits of placing material within and removing it from the work-receiving compartment 27.
A heating element 31, located within the heating compartment 26, comprises a plurality of refractory resistor members 32 to be hereinafter described in detail. The resistor members-32 are located in abutting circuit terminal member 35 operatively engages the outerend of the electrode 33, suitable provision being made in the co-operating members to permit of close operative engagement therebetween.
Resilient compressing means for each of the electrodes comprises a helical spring 36, one end of which engages a block 37 located adjacent to the outer surface of the electric circuit terminal 35, a block 38 of a suitable electric-insulating material being placed therebetween to insulate the compressing structure from the electrode and the terminal. Adjusting means for the compressing means comprises a threaded rod 39, which is adjustable in a fixed member 41 by hand wheel 42.
While I have illustrated a specific construction of compressing means. I do not desire to be limited thereby, as I have shown a specific construction for illustrative purposes only.
Each of the refractory electric conducting resistor members 32 comprises a currentconducting portion 43 located adjacent to one edge of'the member 32 and a positionstabilizing or position-maintaining portion 5 depending portion and a member 45 extending laterally from the ortion 44 adjacent to the lower edge thereof and having a dovetail connection therewith. The member 45 may be of material'that is substantially the same as composes the portions 43 and 44,
but of higher electrical resistance than these portions, or it may be of refractory eiect-rical non-conductin material; The ob ect of this construction is to cause substantially It; all of the curi ent traversing .the heating element 31 to flow through the electricconducting portions 43, whereby substantially all of the heat is generated in a predetermined portion of the heating element 31,
which portion in this case is thatlocated closely adjacent to the diaphragm 28,
which, as above stated, divides the oven chamber into two compartments.
As the resistance of the position-stabilizing portion of each of the refractory resistor members is relatively high only a very small portion of the current will traverse the respective position stabilizing portions, it being understood, of course, that the member 45 extends beyond the surface of the por member '48-of substantia tion- 44 a distance that-is substantially the saine as the thickness of the projecting part of the portion 43 that extends beyond the portion 44. I A
If it is found that the use of a member 45 that is substantially co-exteiisive with the width of the member 32 results in permitting too large a current to traverse this portion of the heating element, a plurality of rods 46, of a suitable refractor material, may be employed, as illustrate in Fig. 3 of the drawing, preferably two rods being employed. The rods 46 may either be' molded in place in the portion :44 or suitable openings may be provided in this portion to permit of loosely placing the rods 46 in their proper operative position in the 'portion 44 when building up the heating element. In place of the rods 46 I may emplo a relatively short bar 47 which is mounted in the portion 44 adjacent the lower edge thereof, a Suitable groove or chamber being rovided in the ortion 44', to permit of seating the bar 47 t erein.- 1 In Figs. 5 and 6, I have illustrated modi- .fications which I may employ, and in which the current conducting portions 43 has socured thereto either a osition-stabilizing lly L shape in section, or a member 49 ofv substantially T- shape 'in'section. The members 48 and 49 are respectively secured to the portion 43 by a dove-tail joint and the'niaterialconstituting portions 48 and 49 is either of relatively high electric resistance or .is electrically non-conducting.
In the modification illustrated-in Fig. 7, the current-conducting portion 43 and the depending portion 44 are integral and toether constitute a member of- 'substantially -shape in section. Two bars 51 are secured to the portion 44 adjacent to the lower edge thereof, asuitable groove being provided on each face of the portion 44 to permit of placing therein an edge portion of the members 51. The-members 51 comprise either a relatively high electric resistance material or a material which is electrically non-conductive, even at high temperatures. It is, of course, understood that the spacing members hereinbefore described, constituted by the-laterally projecting portions of the members 48 and 49 and the members 51 are respectively of such lateral thickness that they'will cooperate with the current conducting portion 43 to build up a heating element wherein the portions 44 are. in substantially parallel alinement throughout.
Fig. 8 illustrates another modification which I may employ in which th members 52 comprise refractory electric-conducting members of wedge shape in lateral section the-upper portions of which are provided with parallel extending surfaces 53 which are located in abut-ting relation in the builtup heating element.
The wedge shaped portions of the members 52 constitut the position'stabilizing portions and are provided with laterally extending plates or bars 54 secured to the members 32 adjacent the lower edge thereof, the. projection of the bars 54 being such as will cause the surfaces 53 of adjacent members 52 to be parallel .to' each other,
In Figs. 9 and 10, I have illustrated a still further modification in which a plurality of current-conducting members 55 of relatively small area in cross-section are molded into position-stabilizing portions 56 of relatively larger area. The members 55 may comprise bars of a suitable refractory electric-conducting material, the thickness of the bars being slightly. greater than the thickness of the position-stabilizing portions 56. The portions 56 comprise refractory material which is either ofrelatively high electric-resistance or is electrically nonconducting.
InFig. 11, I have illustrated a modified form of the construction illustrated in Figs. 9 and 10, which I may employ if the resistance of the bars 55 is found to be relatively high. In this case, I employ a plurality'of spaced rods 57 which are molded into the position-stabilizing portions 66 as hereinbefore' described and are slightly longer than the thickness of the portions 56.
The device embodying my invention may be built in a variety of forms, each of which comprises a current conducting portion, a position stabilizing portion either integral therewith, secured to or molded around such current conducting portion. A plurality of such members may be built up into a heating element which is located between resilient compressing means and is effective to localize the path of the current therethrough and, therefore, localizes the portion in whiclrthe heat is generated by the current traversing it.
Various modifications and changes may be made herein without departing from the spirit and scope thereof, and I desire such modifications to be limited to the prior art or the appended claims.
I claim as my invention:
1. An electric furnace resistor COIIlPllSlIlg a plurality of refractory electrical-conducting members located in abutting relation, each member having a position-stabilizing portion of large area relatively to said conducting member and integral therewith.
2. In an electric furnace resistor, in combination, a plurality of unitary refractory members, each member comprising an electrical-conducting portion and a position-stabilizing portion.
3. In an electric furnace resistor, in combination, a plurality of unitary refractory members, each member comprising an electrical-conducting portion and a position-stabilizing portion extending at substantially a right angle to said conducting portion.
4. In an electric furnace resistor, in combination, a plurality of unitary refractory members, each member comprising an electrical-conducting portion and a position-stabilizing portion having inherent means for reducing the amount of current traversing the same.
5. In an electric furnace resistor, in combination, a plurality of refractory electricalconducting members, of relatively small transverse area, located in abutting relation, each member having an integral positionstabilizing portion of large transverse area relatively to said conducting members, said position-stabilizing portion extending at substantially a right angle to said conducting member and comprising inherent means for reducing the amount of current traversing the same.
6. In an electric furnace, in combination, a resilient compressing means, a resistor comprising a plurality of refractory electrical-conducting members of relatively small transverse area maintained in close operative engagement with each other by said compressing means, each of said conducting members having means integral therewith for maintaining said members in proper operative positions relatively to each other.
7. In an electric furnace, in combination, a resilient compressing means, a resistor comprising a plurality of refractory electrical-conducting members of relatively small transverse area maintained in close operative'engagement with each other by said compressing means, each of said conducting members having means integral therewith for maintaining said members in proper operative positions relatively to each other, and for reducing the amount of current traversing said position-maintaining means.
8. In an electric furnace resistor, in combination, a plurality of refractory electricalconducting members, each member having an integral portion extending at substantially a right angle to said conducting member and comprising a spacing member adjacent its other end.
In testimony whereof, I have hereunto subscribed my name this second day of February 1923.
RUDOLF E. HELLMUND.
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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2657247A (en) * 1949-10-05 1953-10-27 Degussa High-temperature electric furnace and process of operation
US2735881A (en) * 1956-02-21 Metal-impregnated heating rods for electric
FR2194103A1 (en) * 1972-07-25 1974-02-22 Preussag Ag

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2735881A (en) * 1956-02-21 Metal-impregnated heating rods for electric
US2657247A (en) * 1949-10-05 1953-10-27 Degussa High-temperature electric furnace and process of operation
FR2194103A1 (en) * 1972-07-25 1974-02-22 Preussag Ag

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