US2456343A - Electric heater and method of making same - Google Patents

Electric heater and method of making same Download PDF

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US2456343A
US2456343A US566855A US56685544A US2456343A US 2456343 A US2456343 A US 2456343A US 566855 A US566855 A US 566855A US 56685544 A US56685544 A US 56685544A US 2456343 A US2456343 A US 2456343A
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Prior art keywords
tubing
sheath
resistance
unit
resistances
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US566855A
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William R Tuttle
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Tuttle & Kift Inc
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Tuttle & Kift Inc
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Priority to CH264858D priority patent/CH264858A/en
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Priority to DEP27744D priority patent/DE913940C/en
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24CDOMESTIC STOVES OR RANGES ; DETAILS OF DOMESTIC STOVES OR RANGES, OF GENERAL APPLICATION
    • F24C15/00Details
    • F24C15/10Tops, e.g. hot plates; Rings
    • F24C15/102Tops, e.g. hot plates; Rings electrically heated
    • F24C15/104Arrangements of connectors, grounding, supply wires
    • 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
    • H05B3/40Heating elements having the shape of rods or tubes
    • H05B3/42Heating elements having the shape of rods or tubes non-flexible
    • H05B3/48Heating elements having the shape of rods or tubes non-flexible heating conductor embedded in insulating material
    • 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
    • H05B3/68Heating arrangements specially adapted for cooking plates or analogous hot-plates
    • H05B3/76Plates with spirally-wound heating tubes
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T29/00Metal working
    • Y10T29/49Method of mechanical manufacture
    • Y10T29/49002Electrical device making
    • Y10T29/49082Resistor making
    • Y10T29/49087Resistor making with envelope or housing
    • Y10T29/49089Filling with powdered insulation
    • Y10T29/49091Filling with powdered insulation with direct compression of powdered insulation

Definitions

  • This invention relates to electric heaters and more particularly to electric heating units of the sheathed resistor type.
  • Such heaters have been used for a great many years and commonly comprise a helical resistance wire extending centrally through a metal tube which constitutes the sheath, the resistance being insulated from the sheath by a mass of dielectric material which is compacted tightly within the sheath and around and within the helical resistance.
  • the sheath is usually of seamless or similar circumferentially unified tubing. such as butt welded tubing, which is preformed so that the resistance and insulation must be introduced therein from the end, such seamless or. similar tubing which requires such end introduction being referred to hereinafter as preformed.
  • the conventional hot plate or electric range heating unit comprises one or more of the above described sheathed resistor heaters bent or coiled in a horizontal plane into more or less serpentine form.
  • at leastvtwo such sheathed resistor heaters are usually employed 'and their terminal ends are connected with power supply lines through a switch which provides selective connection of the resistors in a number of different relationships to provide different intensities of heat, such switches' usually affording connection of the resistors optionally in series or in parallel or at least one individually v with the power supply, and if a three wire feed is employed with high and low potential, either ration (in which case only a, single resistor is required and a terminal at one end thereof is led through the timing control to one power supply line and a terminal at the other end is connected with the other power supply line.
  • the present invention relates to sheathed resistor heaters, particularly of the preformed tubular sheath type and employs two or more resistance helices or one or more resistance helices and a return conductor encased within a single sheath.
  • the two or more helices may be of substantially the same resistance and energizable in various degrees by dverent connections with the power source in the manner above explained or the helices may possess widely different resistance characteristics for furnishing additional stages of heat.
  • Various other modifications and combinations are possible, using a plurality of resistors in a single sheath, and these and the many advantages to be derived will become apparent as the description proceeds.
  • a prime object of the invention is to provide a plurality of resistances or one or more resistances and a return conductor all encased within a singie preformed tube sheath.
  • Another object is to provide an electric heater having all of the properties and advantages of a plurality of individually sheathed resistors but embodied in one single sheath, and which may be bent, together with the resistors therein, into serpentine or other shapes as required without relative displacement of the resistors therein.
  • a further object ' is to provide a heater embodying a plurality of resistors, which is adaptable to all the uses of a plurality of sheathed rel sistance heaters, and which is simpler and more economical to produce and which is more compact.
  • Another object is to permit all the terminals to be located at one end of the sheath in a preformed tubular sheathed heating unit and to permit the other end of the sheath to be come pletely closed.
  • a still further object of the invention is to provide a method of filling 'or loading the en- Another object is to provide a sheathed resist- I casing sheath with a plurality of resistance helices and dielectric material in a manner to assure accurate location o! the resistors within the sheath and adequate insulation between the respective current conductors and also ⁇ between the same and the metallic sheath.
  • Yet another object is to provide methods for the manufacture of the novel heater thereof in simple, expeditious and economical fashion.
  • Fig. 1 is a plan view oi' a range top electric heating unit embodying features of the present invention, according to a simple form thereof;
  • Fig. 2 is a vertical section on the line 2--2 of Fig. 1;
  • Fig. 3 is a plan view of a stove top unit, similar to Fig. 1, but embodying the invention in a modlfied form;
  • Fig. 4 is a vertical section on the line 44 of Fig. 3;
  • Fig. 5 is a plan view of a heating unit embodying the features substantially as shown in Fig. 3, but wherein the unit is particularly adapted as a coilee maker heater or similar household appliance;
  • Fig. 6 is a side elevational view of the unit of Fig. 5:
  • Fig. 7 is a section on the line I--l of Fig. 6 looking in the direction of the arrows;
  • Fig. 8 is a composite vertical sectional view on an enlarged scale, showing a manner of constructing the heating units hereof and loading the same with the conducting elements and dielectric material;
  • Fig. 9 is a horizontal cross sectional view on the line 9--9 of Fig. 8 looking in the direction of the arrows;
  • Fig. 10 is a plan view of a range top heating unit, according to a modified form of the invention, employing three resistance helices in a single sheath;
  • Fig. 11 is a plan view showing a still further modification wherein three resistance helices and a low resistance return wire are all enclosed within a single sheath.
  • the essence of the invention hereof resides in the employment of two or more resistance helices or one or more resistances and a return conductor within a single preformed tubular metallic sheath.
  • the heating unit may have two open or terminal ends with the resistances connected together within the sheath to a single terminal which projects beyond the end oi' the sheath so that a single lead may be employed therefrom to the appropriate connection of the control switch, the terminals of the resistances at the other end of the unit being separate and separately connected to the switch.
  • all the termlnals may be located at one end in which case the opposite end o!
  • the unit is scaled with the resistances connected together within that end and connected also to a return conductor which is also encased within the single sheath and emerges from the other or terminal end of the unit to form the third terminal. It is also possible, within the scope of the invention, to employ a third resistance helix either with or without a low resistance return wire, as in Figs. l0 and 11.
  • Figs. 1 and 2 oi the drawings.
  • This unit is shown as coiled in serpentine manner to provide a horizontal heating unit for use in the stove top openings of electric ranges.
  • the unit is preferably flattened on its upper surface as indicated at I3.
  • two helically formed resistance wires i4 and I5 Positioned within the sheath i0, in the present embodiment, are two helically formed resistance wires i4 and I5, which are of relatively high electrical resistance and formed of a suitable metal such as the well known Nichrome.
  • the resistances I4 and I5 extend throughout the length of the sheath I0 in substantial parallelism and are completely embedded in a mass I6 of dielectric or insulating material such as the commonly employed magnesium oxide or periclase.
  • 'I'he dielectric I6 is originally placed within the sheath Ill, after positioning of the resistances I4 and i5 therein, in the form of a powder or finely divided aggregate and completely fills all of the space between the resistances and between and within the coils thereof and also between the resistances and the metallic sheath I Il.
  • the dielectric is compacted into a hard dense mass and maintains suitable insulating conditions between the respective resistances, the coils thereof, and between the resistances and the sheath.
  • This compacting to a hard dense mass may be accomplished while the structure is in a straight length, after which the structure is bent in the serpentine or other form, but I prefer, while the structure is in the straight length, to merely compact the insulation sufficiently to hold the resistances in place in bending into the serpentine or other form and to fully compact the insulation after the bending by fiattening the unit.
  • each of the resistances I4 and I5 is connected, within the mass of dielectric I6, with a low resistance terminal wire designated by the numerals Il and i8 respectively which project beyond the end o1' the tube.
  • the ends of the respective resistances i4 and I5 are suitably connected together, as by a low resistance strap or wire I9, to which is electrically connected a low resistance terminal wire 2li which projects beyond that end of the tube.
  • all of the connections with the projecting terminal wires il, I8 and 2li are located withinthe mass of dielectric I6 in order that the energizable elements of the device are completely embedded Within the insulating material.
  • the three terminal wires l1, I8 and 20 are adapted to be connected with the binding posts of a three terminal switch or control device, these connections being diagrammatically indicated at 2
  • a proper control device such as the switch disclosed in the Tuttle Patent No. 2,317,967 above referred to, a number of different heat intensities are obtainable.
  • the unit of Fig. l is connectible to a three vterminal switch and utilizable in the same manner as the customary range top heating device employing two separate sheathed resistor heating elements.
  • the present device is capable of all the functions and possesses all of the advantages of the former u nits and is much more compact and economical to manufacture.
  • FIGs. 3 and 4 of the drawings there is shown a modification of the arrangement lust described, applying the same general principle however.
  • this unit is also preferably flattened along its top surface as indicated at Il.
  • the present unit likewise has at least two resistance helices 20 and il extending in parallel relationship throughout its length and embedded in and insulated by the dielectric material I i. At the open terminus 28 of the unit the resistances are attached in the customary manner to the low resistance terminal wires 32 and u.
  • the opposite or inner end of the sheath 2l is and sealed, as by a metallic cap indicated at 21. Adjacent this closed end and within the unit, the ends of the resistances 2l and I are electrically connected by a suitable strap or other conducting means 34 to one another and to a low resistance return wire l! which extends the length of the unit, being completely insulated from the helices 28 and 30 and the tube 25 by the dielectric material Il, and at the open end 28 of the unit is connected to a third terminal 36 this low resistance return wire 35 being preferably a helix stretched out so that the lsuccessive coils or convolutions are widely spaced somewhat as shown in Fig. 8.
  • the present invention adapts itself quite nicely to the providing of a single heating unit which will provide the desired high and low heat stages for a coffee maker or like appliance while employing only the conventional two wire 110 volt household current supply which is ordinariiy available.
  • the present embodiment employs a single metallic preformed tube sheath I0 coiled horizontally in circular manner and having an open terminal end bent downwardly as indicated at 4l.
  • This unit employs two resistance helices l2 and Il which extend throughout the length of the element and are embedded within the dielectric material 4I in the manner previously described.
  • the opposite end of the unit is preferably in the plane of the circle and is closed and sealed as at 45 preferably by a metallic cap welded thereon.
  • the helices and 43 at their ends adjacent the closed terminus 4t of the unit, are connected together by a suitable electric connection 4l which, in turn, is connected to the inner end of a low resistance return wire 41 which is preferably a stretched helix such.4 as shown in Fig. 8 and extends throughout the length of the unit and emerges gom the open end Ii as the return wire terminal Similarly protruding from the end 4l of the unit are the terminal wires II and 6l of the respective helices 42 and 43.
  • a suitable electric connection 4l which, in turn, is connected to the inner end of a low resistance return wire 41 which is preferably a stretched helix such.4 as shown in Fig. 8 and extends throughout the length of the unit and emerges gom the open end Ii as the return wire terminal Similarly protruding from the end 4l of the unit are the terminal wires II and 6l of the respective helices 42 and 43.
  • the unit ofthe present embodiment employs helices 42 and 48 of widely different electrical resistance characteristics.
  • an electrical energy output from about 660 to '100 watts is desired for boiling purposes, while an ,output of only about "l0 watts is suitable for maintaining Consequently, in the present embodiment, the resistance characteristics of the two helices d! and are gauged so that these two approximate energy outputs can be realized by connections with a two wire 110 volt power supply.
  • the innermostv coil may possess a resistance such that when connected alone to a current supply of 110 volts its capacity will be approximately 660 to '100 watts.
  • the high heat helix Il can be energized by connecting the return wire terminal I8 and the terminal il of the helix 43 with the power supply.
  • the resistance I3 can be cut out of the circuit and the lower heat resistance l2 energized by connecting the terminal Il of the return wire and the terminal l of the resistance 42 with -the power source.
  • a high heat is supplied by the low heat by the resistance Il.
  • a compact and etilcient heating element employabie with a simple two wire current source and capable of supplying at least two desired stages of heat.
  • the insulating resistances and return conductors are installed in the tubular sheath while the -latter is in a straight length, and before the assembly is coiled in the serpentine, circular or other form, and if flattened, the unit is usually flattened after such ceiling.
  • the insulation is gradually supplied to the upper end of the tube, and a tamper with openings therethrough to accommodate the resistors and return conductor and locate them accurately in the tube, is reciprocated and gradually elevated to pack the insulation in and around the resistors and conductor in substantially the same manner that the single' resistance is packed in insulation in a tube in Lightfoot Patents Nos. 1,359,400 and 1,547,335.
  • the sheath i0 to be in the form of a straight open ended tube
  • the latter is placed within the loading machine and the two helices Il and i5, with their ends joined by a strap as at i9, are placed within the sheath and anchored by the anchoring device of the loading machine through the medium of the terminal 20.
  • two centralizing tubes preferably joined together longitudinally like the double barrel of a shotgun, one to surround each of the resistance helices i4 and i5, and the unit is loaded with the insulating material, the two centralizing tubes being progressively withdrawn as the unit is filled, according to the same procedure followed when constructing a single resistance unit.
  • the sheath will, of course, after loading be temporarily sealed or capped at both ends, in the customary maner, and then swaged to further compact the insulating material, after which the unit may b e formed into the shape and arrangement as shown in Fig. 1. Thereafter, in accordance with known practice, the coiled unit may be flattened on its top by being struck with a power hammer, and the sealing elements then removed in the usual manner. In this flattening the resistances which were originally cylindrical, are deformed transversely somewhat as shown in Figs. 2 and 4 in conformity to the transverse deformation of the sheath.
  • Fig. 8 there is illustrated in somewhat enlarged fashion, a heating unit which may ultimately be shaped into either of the forms shown filling procedure.
  • This ngure shows the straight tube or sheath 5i which is originally a tube open at both ends.
  • the tube 5i is countcrbored at one end as indicated at 52 to receive a plug or washer 5I formed of a ceramic material or other substance having insulating properties.
  • the plug Il bears against a shoulder 54 formed as a result of the counterbore.
  • a pair of resistance helices 55 and 5B are employed, each with a return conductor 55a and 56a respectively which is merely a straight or nearly straight portion of the respective helix wire and which may be provided by making the helix with a straight length of wire at one end of sufficient length to extend back through the sheath 5i to the other end thereof.
  • the helix is made of slightly greater length than required with a sufficient number of extra convolutions at the end so that these extra convolutions may be pulled out nearly straight to serve as the return conductor, a slight twist or spiral being retained in the return conductor to accommodate any elongation strains that may occur in the further manufacture of the heater or in the use thereof.
  • the ceramic washer 53 is provided with an opening 5l in line with the resistance 55 to receive the return wire 55a thereof and with another opening 5B in line with the resistance 56 to receive the return wire 56a thereof, and this washer has another opening 59 therethrough, properly spaced from the openings 5l and 58, through which the two return wires 55a and 56a are con jointly bent back to return conjointly to the other end of the sheath 5i where they are attached conjointly to the terminal 66.
  • resistors 55 and 58 are electrically connected with low resistance terminal wires 64 and 65 in customary manner, these terminals extending beyond the end of the sheath 5i, as does also the terminal 66 of the two return wires 55a and 56a.
  • the assembled resistors, return wires, ceramic washer and terminals are inserted in the sheath 5i with the washer 53 seated against the shoulder 54 of the counterbore 52 and the terminals El, 65 and 66 projecting from the opposite end of the sheath, after which the counterbored opening beyond the ceramic washer 53 may be packed with insulation 1G and closed by a metal washer or cap 1i over which the edges of the sheath may be crimped as at 13 to hold the washer in place.
  • Suitable counterweighted or spring devices are connected through the respective centralizer tubes with the terminals 6I, E5 and 56 and hold the respective resistances 55 and 56 and the return wires 55a and 56a under tension so that they Will extend through the sheath in parallel relationship.
  • Suitable centralizing tubes or tampers such as are customarily used in loading a single resistance unit, surround each 'oi the resistance helices and a similar centralizer tube surrounds the two return wires.
  • the powdered magnesium oxide flows into the sheath at the top and falls to the bottom of the tube around the outside of the centralizing tubes.
  • these centralizing tubes are progressively withdrawn as the sheath fills up with the powdered insulation from the bottom so that, upon completion of the operation, the sheath has been filled with powdered magnesium oxide approximately to its upper end and the centralizing tubes have been completely withdrawn.
  • the powdered insulation completely fills the sheath and the interior of the resistance helices and betv'een the coils thereof.
  • FIG. 8 The preferred arrangement of the centralizing tubes has been shown fragmentarily in Fig. 8 and in Fig. 9.
  • This arrangement consists of three tubes 15, 16 and 11 placed together in parallel re-Y lationship and provided at the lower ends with a tamper head 18 having openings therethrough in which the lower ends of the tubes 15, 18 and 11 are secured; 'I'hese tubes respectively surround the helices 55 and 58 and the return wires 55a and 55a.
  • This tamper head 18 is of skeleton form with radially projecting fins or lugs 19 which serve to hold the tamper head and tubes 15, 15
  • the powder when reciprocated, tamps the insulating powder compactly thereunder, the spaces between the lugs or fins 19 permitting the powder to pass down below the tamper which progressively rises as the powder accumulates -and is tamped thereunder.
  • the powder is supplied and compacted within and around the coils of the helices and around the return wires to completely fill the space in the sheath and hold the resistances in predetermined spaced relation to one another and to the return wires and the resistances and return wires in predetermined spaced relation to the sheath.
  • is vibrated and the centralizers or tamping tubes 15, 18 and 11 alternately lifted and dropped, while being gradually withdrawn from the sheath as the same fills up, and thus the powdered insulation is both shaken and tamped to make the mass as dense as possible.
  • a metallic washer 51 having suitable openings to accommodate the terminals 84, 85 and 6B, is inserted in the upper end of the sheath against the top of the compacted insulation and the walls of the sheath are crimped on each side of the washer 61, as indicated at 68 and 89, to hold the washer securely in place during the subsequent swaging operation.
  • the loaded unit is then subjected to alswaging than the others.
  • the unit shown is a coiled range top heater employing the single metallic sheath leaving two open or terminal ends 8
  • Fig. 11 shows an adaptation of the invention similar to Fig. 10 but wherein a return wire as well vas three resistors extend through the unit,
  • a sheathed re- 1l sistor of the above type may be made with only a single resistor and a low resistance return wire which are connected together at one closed end of the sheat and have their two terminals at the other end of the sheath.
  • Such unit would be usable'with ordinary switch for single heat or with intermittent control, such as disclosed in Potter Patent 2,294,573 for infinitely variable heat.
  • Heating units such as described above are advantageous not only because of the economies occasioned by the use of a single tube instead of the several tubes heretofore used in the individual sheathing of each resistance, and the economies in operations in producing, forming and assembling a single multiple resistance unit instead of a number of separate individual resistance units, but there are fewer unit ends to be extended away from the immediate heating zone to the place of electrical connection with the terminals of the resistances and a resultant economy therefrom in the length of tubing and resistances and the amount of insulation that is required. Moreover with the resistances contained in a single tube there is an increased heating efficiency because of the lesser surface area to be cooled by the surrounding air.
  • An electric heater of the class described comprising a metal sheath of preformed tubing which is bent into a crooked form having a correspondingly crooked non-rectilinear longitudinal axis and has at least two conductors therein correspondingly bent and extending lengthwise thereof, said tubing having insulating powder compressed therein into a hard dense mass within which said conductors are embedded in spaced apart relation throughout their length, and said conductors being connected together within one end of the tubing and each having at the other end of the tubing a separate terminal extending therefrom through that end of the tubing, at least one of said conductors being a helical resistance, said insulating powder and conductors conjointly occupying and completely filling the attains interior of the metal tube throughout the length of the latter between the ends of the conductors.
  • An electric heater oi the class described comprising a metal sheath of preformed tubing which is bent into a crooked form having a correspondingly crooked non-rectilinear longitudinal axis and has at least two conductors therein correspondingly bent and extending lengthwise thereof in separate zones substantially parallel with and spaced apart transversely of the longitudinal axis of the tubing, said tubing having insulating powder compressed, therein into a hard dense mass within which said conductors are embedded, and said conductors being connected together within one end of the tubing, and each having at the other end of the tubing a separate terminal extending therefrom through that end of the tubing, at least one of said conductors being a helical resistance, said insulating powder and conductors conjointly occupying and completely filling the interior of the metal tube throughout the length of the latter between the ends of the conductors.
  • An electric heater of the class described comprising a metal sheath of preformed tubing which is closed at one end and bent into a crooked form having a. correspondingly crooked non-rectilinear longitudinal axis and has at least two conductors therein correspondingly bent and extending lengthwise thereof, said tubing having insulating powder compressed therein into a hard dense mass in which said conductors are embedded in spaced apart relation throughout their length, and said conductors being connected together within the closed end of the tubing and each having at the other end of the tubing a separate terminal extending therefrom through that end of the tubing, at least one of said conductors being a helical resistance, said insulating powder and conductors conjointly occupying and completely filling the interior of the metal tube throughout the length of the latter between the ends of the conductors.
  • An electric heater of the class described comprising a metal sheath of preformed tubing which is bent into a crooked form having a correspondingly crooked non-rectilinear longitudinal axis and has at least three conductors therein correspondingly bent and extending lengthwise thereof, at least two of which said conductors are helical resistances, said tubing having powder ⁇ compressed therein into a hard dense mass in which said conductors are embedded in spaced apart relation throughout their length, and said tubing being closed at one end and at the other end thereof each of said conductors having a separate'terminal extending therefrom through that end of the tubing, and each of said conductors having the end thereof remote from its respective terminal connected within the tubing with another one of said conductors, said insulating powder and conductors conjointly occupying and completely filling the interior of the metal tube throughout the length of the latterbetween the ends of the conductors.
  • An electric heater of the class described comprising a metal sheath of preformed tubing which is closed at one end and bent into a crooked form having a correspondingly crooked non-rectilinear longitudinal axis and has therein a wire resistance helix correspondingly bent and extending lengthwise thereof, said helix having an outstretched continuation of the wire thereof extending back through the tubing from the closed end thereof tothe other end thereof, insulating powder in the tubing compactly confined thereby in a.
  • An electric heater of the class described comprising a metal sheath of preformed tubing which is closed at one end and bent into a crooked form having a correspondingly crooked non-rectilinear longitudinal axis and has therein at least two wire resistance helices correspondingly bent and extending lengthwise thereof, each of said helices having an outstretched continuation of the wire thereof extending back through the tubing from the closed end thereof to the other end thereof, insulating powder in the tubing compactly conilned thereby in a hard dense mass in which the two helices are embedded in spaced apart relation throughout their length from one another and from both continuations, and three separate terminals projecting from the last mentioned end of the tubing, two of which said terminals leadfvrespectively from the helices and the other of which leads from both outstretched continuations, said insulating powder, helices and continuations thereof conjointly occupying and completely nlling the interior of the metal tube throughout the length of the latter between the ends of said
  • An electric heater comprising a length of preformed metal tubing having therein a plurality of helical resistors extending lengthwise ythereof separately in side by side relation, and
  • An electric heater comprising a length of preformed metal tubing having therein a plurality of helical resistors extending lengthwise thereof separately in side by side relation, a'n insulating powder in said tubing compactly confined thereby in a hard dense mass within which said resistors are embedded and by which the resistors are separated and insulated from one another and from the tubing throughout their length, and terminals leading respectively from the resistors and all projecting from the same end of the tubing, said tubing, resistors and compacted insulating powder being conjointiy bent in flat serpentine form, said insulating powder and resistors occupying and completely filling the interior of the metal tube throughout the length of the latter between the ends of the resistors.
  • An electric heater of the class described comprising a metal sheath of preformed tubing bent in fiat serpentine form and having therein at least two conductors extending lengthwise thereof and joined together within one end of the tubing, said conductors having separate terminals leading therefrom respectively through the 'other end of the tubing, and insulating powder in the tubing, compactly confined thereby in a hard dense mass in which said conductors are embedded in spaced apart relation throughout their length.
  • one of said conductors being a helical resistance
  • said insulating powder and conductors conJointly occupying and completely filling the interior of the metal tube throughout the length oi' the latter between the ends of the conductors.
  • An electric heater of the class described comprising a metal sheath of preformed tubing closed at one end and coiled in fiat serpentine form, said tubing having therein two resistance helices extending lengthwise thereof in laterally spaced relation to one another and both lying in substantially the same plane, said helices being joined together at the closed end of the tubing and ⁇ each having a separate terminal leading therefrom through the other end of the tubing, and insulating powder in the tubing compactly conned thereby in a hard dense mass in which the resistancevheiices are embedded in substantially parallel spaced apart relation throughout their length, said insulating powder and resistors occupying and completely filling the interior of the metal tube throughout the length of the latter between the ends of the resistors.
  • An electric heater of the class described comprising a. metal sheath of preformed tubing closed at one end and coiled in flat serpentine form, said tubing being flattened at one side of the plane of the flat serpentine form and having y therein two resistance helices extending lengthwise thereof in laterally spaced relation to one another, and both lying in substantially the same plane, and a return conductor in the tubing leading from the ⁇ ends of the helices at the closed end of the tubing to the other end of the tubing, insulating powder in the tubing compactlyv confined thereby in a hard dense mass in which the helices and conducter are embedded in substantially parallel spaced apart relation throughout their length, and three separate terminals projecting from the last mentioned end of the tubing and leading respectively from the two helices and the conductor, said insulating powder and helices coniointly occupying and completely filling the interior of the metal tube throughout the length of the latter between the ends of the helices.
  • a metal sheathedv electrical heater of the yclass described comprising a preformed metal tube -flattened along one side andcoiled in a at serpentine winding with the flattened side of the tubing lying in the plane of one side of the serpentine winding, a pair of laterally spaced helical resistances in the tubing and extending lengthwise of and in substantially equal proximity to the flattened -side of the tubing, said tubing being closed at one end and each resistance having a separate terminal projecting therefrom through the other end of the tubing, and powdered insulation in the tubing and confined thereby in a hard dense mass within which the resistances and the inner ends of the terminals are embedded, said powdered insulation and resistances conjointly occupying and completely filling the interior of the metal tube throughout the length of the latter between the ends of the resistances.
  • the method of making a metal sheathed plural resistance electrical heater which comprises inserting a plurality of helical resistances in side by side relation endwise into a length of preformed metal tubing, and supporting the resistances at their ends in separated relation so that they extend lengthwise in the tubing in substantially parallel side by side relation, then gradually introducing an insulating powder into one end of the tubing, and at the same time progressively packing said insulating powder around and within all of the resistors simultaneously so as to hold the resistors in predetermined separated relation from one another and from the tubing solely by the compacted insulating powder, then swaging the tubing transversely to a reduced size and thereby further compacting the insulating powder therein, and thereafter coiling the tubing and contents into flat serpentine form.
  • a metal sheathed electrical heater ot the class described which comprises inserting two helical resistances endwise into a length of preformed metal tubing through an end of the latter, supporting said inserted helices at the opposite ends thereof in a manner to hold the resistances outstretched respectively at opposite sides of the interior of the tubing and while thus supported progressively lling the tubing with powdered insulation and packing the powdered insulation in and around the resistances progressively throughout their length so as to embed the resistances within compacted insulation and thereby hold the resistances away from the tubing wall and in parallel spaced apart relation at opposite sides respectively of the interior oi the tubing solely by the compacted insulating powder, then bending the tubing with 16 the insulation and helices therein into a nat serpentine winding wherein both helices lie substantially in the same plane between the opposite sides of the fiat serpentine winding, and thereafter flattening the tubing transversely in a direction perpendicular to said last mentioned plane of one side

Description

Dec. 14, 1948. w. R. TUTTLE ELECTRIC HEATER AND METHOD oE MAKING sm:
4 Sheets-Sheet l Filed DeC. 6, 1944 Dec. 14, 1948. w. R. TUTTLE ELECTRIC HEATER AND METHOD OF MAKING SAME 4 Sheets-Sheet 2 Flea Dec. 6, 1944 C MM.,
Dec. 14, 1948. w. R. TUTTLE 2,455,343
ELECTRIC HEATER AND METHOD OF MAKING SAME Fileq Deo. e, 194.44 4 sheets-sheet s \lstvlslslsleh ffm/Ze @MM Wm @ffy Dec. 14, 1948. w. R. TUTTLE ELECTRIC HEATER AND METHOD OF MAKING SAME 4 Sheets-Sheet 4 Fle Deo. 6. 1944 INVENTO Patented Doc. 14, 1948 ELECTRIC HEATER AND METHOD OF MAKING SAME wuum a. ruwe. Riverside, 1u.. enigmi u 'ruttle Kift, Inc., Chicago, lll., a corporation of Illinois Application December 6, 1944. Serial No. 566.855
14 Claiml.
This invention relates to electric heaters and more particularly to electric heating units of the sheathed resistor type.
Such heaters have been used for a great many years and commonly comprise a helical resistance wire extending centrally through a metal tube which constitutes the sheath, the resistance being insulated from the sheath by a mass of dielectric material which is compacted tightly within the sheath and around and within the helical resistance. The sheath is usually of seamless or similar circumferentially unified tubing. such as butt welded tubing, which is preformed so that the resistance and insulation must be introduced therein from the end, such seamless or. similar tubing which requires such end introduction being referred to hereinafter as preformed.
As is well known such sheathed resistances,
vaiter assembly thereof with the resistance embedded in insulation in the tube.,v are frequently bent or formed into various shapes and configurations peculiarly suited to particular service requirements such as car heating, water tank heating, cooking range usage. and the like. The invention hereof, which pertains to such electric heaters, has particular advantage in the domestic cooking field, although it will be apparent that its advantages will extend to other fields where such sheathed resistor heaters may be employed. For the purpose of convenience, however, the invention will be described in its adaptation in connectionwith domestic cooking facilities.
The conventional hot plate or electric range heating unit comprises one or more of the above described sheathed resistor heaters bent or coiled in a horizontal plane into more or less serpentine form. Where, as is almostalways the case, a plurality of heating stages is desired, at leastvtwo such sheathed resistor heaters are usually employed 'and their terminal ends are connected with power supply lines through a switch which provides selective connection of the resistors in a number of different relationships to provide different intensities of heat, such switches' usually affording connection of the resistors optionally in series or in parallel or at least one individually v with the power supply, and if a three wire feed is employed with high and low potential, either ration (in which case only a, single resistor is required and a terminal at one end thereof is led through the timing control to one power supply line and a terminal at the other end is connected with the other power supply line.
Now the present invention, as previously mentioned, relates to sheathed resistor heaters, particularly of the preformed tubular sheath type and employs two or more resistance helices or one or more resistance helices and a return conductor encased within a single sheath. The two or more helices may be of substantially the same resistance and energizable in various degrees by diilerent connections with the power source in the manner above explained or the helices may possess widely different resistance characteristics for furnishing additional stages of heat. Various other modifications and combinations are possible, using a plurality of resistors in a single sheath, and these and the many advantages to be derived will become apparent as the description proceeds.
A prime object of the invention is to provide a plurality of resistances or one or more resistances and a return conductor all encased within a singie preformed tube sheath.
Another object is to provide an electric heater having all of the properties and advantages of a plurality of individually sheathed resistors but embodied in one single sheath, and which may be bent, together with the resistors therein, into serpentine or other shapes as required without relative displacement of the resistors therein.
A further object 'is to provide a heater embodying a plurality of resistors, which is adaptable to all the uses of a plurality of sheathed rel sistance heaters, and which is simpler and more economical to produce and which is more compact.
Another object is to permit all the terminals to be located at one end of the sheath in a preformed tubular sheathed heating unit and to permit the other end of the sheath to be come pletely closed.
potential mayalso be optionally impressed on the series, parallel or individual resistors to give additional heat variations, all as disclosed in.
W. R. Tuttle Patent No. 2,317,967.4 .Y
In some cases, however. heat variation has been effected by a timing control in which the current to the resistor is repeatedly interrupted at regular intervals of selectively changeable du- Another object is to provide a plural resistance single preformed sheath heater of extreme flexibility in adaptation, of long life, particularly advantageous in the domestic cooking field, and utilizable with various conventional control devices.
ance which is more conveniently adaptable to pivotal mounting than sheathed resistors heretofore available.
A still further object of the invention is to provide a method of filling 'or loading the en- Another object is to provide a sheathed resist- I casing sheath with a plurality of resistance helices and dielectric material in a manner to assure accurate location o! the resistors within the sheath and adequate insulation between the respective current conductors and also `between the same and the metallic sheath.
Yet another object is to provide methods for the manufacture of the novel heater thereof in simple, expeditious and economical fashion.
With these and other objects in view the invention comprises the novel combination and arrangement of parts. and manners of effecting the same, hereinafter fully described, illustrated in the accompanying drawings and particularly pointed out in the appended claims, it being understood that the invention is not to be limited to the specific embodiments shown and described but that many variations and modifications thereof are possible, within the scope of the claims, without departing from the spirit of the invention or sacrificing any of the advantages thereof.
In the drawings;
Fig. 1 is a plan view oi' a range top electric heating unit embodying features of the present invention, according to a simple form thereof;
Fig. 2 is a vertical section on the line 2--2 of Fig. 1;
Fig. 3 is a plan view of a stove top unit, similar to Fig. 1, but embodying the invention in a modlfied form;
Fig. 4 is a vertical section on the line 44 of Fig. 3;
Fig. 5 is a plan view of a heating unit embodying the features substantially as shown in Fig. 3, but wherein the unit is particularly adapted as a coilee maker heater or similar household appliance;
Fig. 6 is a side elevational view of the unit of Fig. 5:
Fig. 7 is a section on the line I--l of Fig. 6 looking in the direction of the arrows;
Fig. 8 is a composite vertical sectional view on an enlarged scale, showing a manner of constructing the heating units hereof and loading the same with the conducting elements and dielectric material;
Fig. 9 is a horizontal cross sectional view on the line 9--9 of Fig. 8 looking in the direction of the arrows;
Fig. 10 is a plan view of a range top heating unit, according to a modified form of the invention, employing three resistance helices in a single sheath; and
Fig. 11 is a plan view showing a still further modification wherein three resistance helices and a low resistance return wire are all enclosed within a single sheath.
As previously indicated, the essence of the invention hereof resides in the employment of two or more resistance helices or one or more resistances and a return conductor within a single preformed tubular metallic sheath. In the simplest aspect, as in Fig. 1,.the heating unit may have two open or terminal ends with the resistances connected together within the sheath to a single terminal which projects beyond the end oi' the sheath so that a single lead may be employed therefrom to the appropriate connection of the control switch, the terminals of the resistances at the other end of the unit being separate and separately connected to the switch. In other instances, as in Figs. 3 and 5, all the termlnals may be located at one end in which case the opposite end o! the unit is scaled with the resistances connected together within that end and connected also to a return conductor which is also encased within the single sheath and emerges from the other or terminal end of the unit to form the third terminal. It is also possible, within the scope of the invention, to employ a third resistance helix either with or without a low resistance return wire, as in Figs. l0 and 11.
For an understanding of the invention in its simplest aspect reference may be had to Figs. 1 and 2 oi the drawings. Therein is shown a single preformed tubular metallic sheath I0 coiled in serpentine form and having two open terminal ends II and I2 respectively. This unit is shown as coiled in serpentine manner to provide a horizontal heating unit for use in the stove top openings of electric ranges. According to customary practice the unit is preferably flattened on its upper surface as indicated at I3.
Positioned within the sheath i0, in the present embodiment, are two helically formed resistance wires i4 and I5, which are of relatively high electrical resistance and formed of a suitable metal such as the well known Nichrome. The resistances I4 and I5 extend throughout the length of the sheath I0 in substantial parallelism and are completely embedded in a mass I6 of dielectric or insulating material such as the commonly employed magnesium oxide or periclase. 'I'he dielectric I6 is originally placed within the sheath Ill, after positioning of the resistances I4 and i5 therein, in the form of a powder or finely divided aggregate and completely fills all of the space between the resistances and between and within the coils thereof and also between the resistances and the metallic sheath I Il. By suitable processing steps the dielectric is compacted into a hard dense mass and maintains suitable insulating conditions between the respective resistances, the coils thereof, and between the resistances and the sheath. This compacting to a hard dense mass may be accomplished while the structure is in a straight length, after which the structure is bent in the serpentine or other form, but I prefer, while the structure is in the straight length, to merely compact the insulation sufficiently to hold the resistances in place in bending into the serpentine or other form and to fully compact the insulation after the bending by fiattening the unit.
At one terminal end I2 of the heating unit, each of the resistances I4 and I5 is connected, within the mass of dielectric I6, with a low resistance terminal wire designated by the numerals Il and i8 respectively which project beyond the end o1' the tube. At the other terminal end II of the heating unit the ends of the respective resistances i4 and I5 are suitably connected together, as by a low resistance strap or wire I9, to which is electrically connected a low resistance terminal wire 2li which projects beyond that end of the tube. As will be appreciated all of the connections with the projecting terminal wires il, I8 and 2li are located withinthe mass of dielectric I6 in order that the energizable elements of the device are completely embedded Within the insulating material.
As clearly shown in Fig. l, the three terminal wires l1, I8 and 20 are adapted to be connected with the binding posts of a three terminal switch or control device, these connections being diagrammatically indicated at 2|, 22, and 23. When completely closed assassa so connected to a proper control device, such as the switch disclosed in the Tuttle Patent No. 2,317,967 above referred to, a number of different heat intensities are obtainable. In other words. the unit of Fig. l is connectible to a three vterminal switch and utilizable in the same manner as the customary range top heating device employing two separate sheathed resistor heating elements. In such employment the present device is capable of all the functions and possesses all of the advantages of the former u nits and is much more compact and economical to manufacture.
In Figs. 3 and 4 of the drawings there is shown a modification of the arrangement lust described, applying the same general principle however. In these figures there will be seen a single metallic sheath 25 coiled horizontally in substantially serpentine fashion with an open terminal end Il and a closed end 21, the latter preferably terminating adjacent the center of the coil. For best effect this unit is also preferably flattened along its top surface as indicated at Il.
The present unit likewise has at least two resistance helices 20 and il extending in parallel relationship throughout its length and embedded in and insulated by the dielectric material I i. At the open terminus 28 of the unit the resistances are attached in the customary manner to the low resistance terminal wires 32 and u.
The opposite or inner end of the sheath 2l is and sealed, as by a metallic cap indicated at 21. Adjacent this closed end and within the unit, the ends of the resistances 2l and I are electrically connected by a suitable strap or other conducting means 34 to one another and to a low resistance return wire l! which extends the length of the unit, being completely insulated from the helices 28 and 30 and the tube 25 by the dielectric material Il, and at the open end 28 of the unit is connected to a third terminal 36 this low resistance return wire 35 being preferably a helix stretched out so that the lsuccessive coils or convolutions are widely spaced somewhat as shown in Fig. 8.
There is thus provided a two resistance heating unit wherein one end of each resistor, 32 and I3,
is connectible to terminals of a switch and wherein the helices have their other ends connected together at 3l and to the return wire I5, which provides the third terminal It for connection to a suitable three terminal control device. In this instance the connections and operation of the heating unit are identical with those explained in connection with Fig. 1 and a suitable switch, such as that of the aforesaid Tuttle patent, will connect the resistances 2l and lli in various relationships to providedifferent intensities of heat. In either instance there is provided a simple single sheath heating element or unit which has all of the flexibility and attributes of a conventional element composed of separate individual cores and which is simpler, more compact and more economical. A further adaptation of the invention is illustrated in Figs. 5, 6 and 'l of the drawings which illustrate a heating element particularly suitable for employment in connection with domestic appliances such as the well known glass coffee makers. In such cases it is desirable to provide high heat for boiling and low heat for maintaining a warming temperature but because of the small heating area and the practical limitations in the bending of the sheathed resistance it has been impractical to employ two separately sheathed resistances so as to provide these two desired heating conditions and accordingly most of the va warming temperature.
- 8 heating devices for this purpose have been capable of only a single high beat stage.
The present invention, however, adapts itself quite nicely to the providing of a single heating unit which will provide the desired high and low heat stages for a coffee maker or like appliance while employing only the conventional two wire 110 volt household current supply which is ordinariiy available. Thus the present embodiment employs a single metallic preformed tube sheath I0 coiled horizontally in circular manner and having an open terminal end bent downwardly as indicated at 4l. This unit employs two resistance helices l2 and Il which extend throughout the length of the element and are embedded within the dielectric material 4I in the manner previously described. The opposite end of the unit is preferably in the plane of the circle and is closed and sealed as at 45 preferably by a metallic cap welded thereon. As explained in connection with the previous modification, the helices and 43, at their ends adjacent the closed terminus 4t of the unit, are connected together by a suitable electric connection 4l which, in turn, is connected to the inner end of a low resistance return wire 41 which is preferably a stretched helix such.4 as shown in Fig. 8 and extends throughout the length of the unit and emerges gom the open end Ii as the return wire terminal Similarly protruding from the end 4l of the unit are the terminal wires II and 6l of the respective helices 42 and 43. Thus there is provided an arrangement which, in mechanical structure, is substantially the same as illustrated -in Fig. 3, in that there are employed two resistance helices extending throughout the unit and both connected at their inner ends to a common return conductor also extending throughout the unit and providing a third terminal at the open end thereof. When employed as a coffee maker, however, the unit ofthe present embodiment employs helices 42 and 48 of widely different electrical resistance characteristics. In this connection it has been determined that an electrical energy output from about 660 to '100 watts is desired for boiling purposes, while an ,output of only about "l0 watts is suitable for maintaining Consequently, in the present embodiment, the resistance characteristics of the two helices d! and are gauged so that these two approximate energy outputs can be realized by connections with a two wire 110 volt power supply.
In one such arrangement the innermostv coil may possess a resistance such that when connected alone to a current supply of 110 volts its capacity will be approximately 660 to '100 watts.
' Under such an arrangement the other helix 42 would be of a relatively higher resistance to af- A ford, when connected alone to the current source,
a capacity of about '10 watts. Thus, by merely manipulating either a simple toggle switch, or a selective two socket connection with the supply line, the high heat helix Il can be energized by connecting the return wire terminal I8 and the terminal il of the helix 43 with the power supply. By the switch or changing the socket connection the resistance I3 can be cut out of the circuit and the lower heat resistance l2 energized by connecting the terminal Il of the return wire and the terminal l of the resistance 42 with -the power source. Thus, by simple manipulation, a high heat is supplied by the low heat by the resistance Il.
resistance 48 and a In some instances it may be desirable for high aumen heat to energize both resistances in parallel, thereby affording a slightly Vhigher heatlthan with the resistance ll alone and the two resistances could be energized in series to give a slightlylowcr heat than the resistance I1 alone and these heating arrangements can be provided with the three terminals of Figs. and 6.
In any event there is provided a compact and etilcient heating element employabie with a simple two wire current source and capable of supplying at least two desired stages of heat.
In producing units of the present invention the insulating resistances and return conductors are installed in the tubular sheath while the -latter is in a straight length, and before the assembly is coiled in the serpentine, circular or other form, and if flattened, the unit is usually flattened after such ceiling. In the proceeding the resistances and return conductors are inserted through the straight tube and while the resistances and return conductors are supported at their opposite ends to hold them in substantially the position they are to occupy, the insulation is gradually supplied to the upper end of the tube, and a tamper with openings therethrough to accommodate the resistors and return conductor and locate them accurately in the tube, is reciprocated and gradually elevated to pack the insulation in and around the resistors and conductor in substantially the same manner that the single' resistance is packed in insulation in a tube in Lightfoot Patents Nos. 1,359,400 and 1,547,335.
Thus referring to the unit of Fig. 1, assuming the sheath i0 to be in the form of a straight open ended tube, the latter is placed within the loading machine and the two helices Il and i5, with their ends joined by a strap as at i9, are placed within the sheath and anchored by the anchoring device of the loading machine through the medium of the terminal 20. There are then employed two centralizing tubes, preferably joined together longitudinally like the double barrel of a shotgun, one to surround each of the resistance helices i4 and i5, and the unit is loaded with the insulating material, the two centralizing tubes being progressively withdrawn as the unit is filled, according to the same procedure followed when constructing a single resistance unit. The sheath will, of course, after loading be temporarily sealed or capped at both ends, in the customary maner, and then swaged to further compact the insulating material, after which the unit may b e formed into the shape and arrangement as shown in Fig. 1. Thereafter, in accordance with known practice, the coiled unit may be flattened on its top by being struck with a power hammer, and the sealing elements then removed in the usual manner. In this flattening the resistances which were originally cylindrical, are deformed transversely somewhat as shown in Figs. 2 and 4 in conformity to the transverse deformation of the sheath.
However, different problems are encountered when producing the units of Figs. 3 and 5 wherein one end of the coil is permanently sealed, and wherein all terminals emerge at one end of the coil. The following will describe, by reference to Figs. 8 and 9, a simple and expeditious procedure for lling and loading the sealed end units and also will present a particular construction of sealed end unit which is both novel and advantageous.
In Fig. 8 there is illustrated in somewhat enlarged fashion, a heating unit which may ultimately be shaped into either of the forms shown filling procedure.
in Figs. 3 and 5, or into any otherdesired configuration. This unit is shown as a composite development and depicts the unit in that stage of manufacture whcre'it has been loaded, capped,
and is ready for the usual swaging operation to compact the insulation, except that in the lower half oi' said figure the ccntralizing tubes and tamper are shown as they operate during the The description will delineate the steps in manufacture which have resulted in the condition of the unit as seen in Fig. 8.
This ngure shows the straight tube or sheath 5i which is originally a tube open at both ends. In initiating the construction of this unit the tube 5i is countcrbored at one end as indicated at 52 to receive a plug or washer 5I formed of a ceramic material or other substance having insulating properties. As clearly seen the plug Il bears against a shoulder 54 formed as a result of the counterbore.
In this heating unit of Fig. 8 a pair of resistance helices 55 and 5B are employed, each with a return conductor 55a and 56a respectively which is merely a straight or nearly straight portion of the respective helix wire and which may be provided by making the helix with a straight length of wire at one end of sufficient length to extend back through the sheath 5i to the other end thereof.
Preferably however, the helix is made of slightly greater length than required with a sufficient number of extra convolutions at the end so that these extra convolutions may be pulled out nearly straight to serve as the return conductor, a slight twist or spiral being retained in the return conductor to accommodate any elongation strains that may occur in the further manufacture of the heater or in the use thereof.
The ceramic washer 53 is provided with an opening 5l in line with the resistance 55 to receive the return wire 55a thereof and with another opening 5B in line with the resistance 56 to receive the return wire 56a thereof, and this washer has another opening 59 therethrough, properly spaced from the openings 5l and 58, through which the two return wires 55a and 56a are con jointly bent back to return conjointly to the other end of the sheath 5i where they are attached conjointly to the terminal 66.
The opposite ends of the resistors 55 and 58 are electrically connected with low resistance terminal wires 64 and 65 in customary manner, these terminals extending beyond the end of the sheath 5i, as does also the terminal 66 of the two return wires 55a and 56a.
The assembled resistors, return wires, ceramic washer and terminals are inserted in the sheath 5i with the washer 53 seated against the shoulder 54 of the counterbore 52 and the terminals El, 65 and 66 projecting from the opposite end of the sheath, after which the counterbored opening beyond the ceramic washer 53 may be packed with insulation 1G and closed by a metal washer or cap 1i over which the edges of the sheath may be crimped as at 13 to hold the washer in place.
The assembly is then placed in a suitable loading machine, the upper end of the sheath being unobstructed as will be readily appreciated. In the loading machine suitable counterweighted or spring devices are connected through the respective centralizer tubes with the terminals 6I, E5 and 56 and hold the respective resistances 55 and 56 and the return wires 55a and 56a under tension so that they Will extend through the sheath in parallel relationship. Suitable centralizing tubes or tampers, such as are customarily used in loading a single resistance unit, surround each 'oi the resistance helices and a similar centralizer tube surrounds the two return wires. In the loading machine the powdered magnesium oxide flows into the sheath at the top and falls to the bottom of the tube around the outside of the centralizing tubes. As previously explained, these centralizing tubes are progressively withdrawn as the sheath fills up with the powdered insulation from the bottom so that, upon completion of the operation, the sheath has been filled with powdered magnesium oxide approximately to its upper end and the centralizing tubes have been completely withdrawn. Incident to the vibration or agitation provided by the loading machine and to the tamping eilects customarily produced by the centralizing tubes, the powdered insulation completely fills the sheath and the interior of the resistance helices and betv'een the coils thereof.
The preferred arrangement of the centralizing tubes has been shown fragmentarily in Fig. 8 and in Fig. 9. This arrangement consists of three tubes 15, 16 and 11 placed together in parallel re-Y lationship and provided at the lower ends with a tamper head 18 having openings therethrough in which the lower ends of the tubes 15, 18 and 11 are secured; 'I'hese tubes respectively surround the helices 55 and 58 and the return wires 55a and 55a. This tamper head 18 is of skeleton form with radially projecting fins or lugs 19 which serve to hold the tamper head and tubes 15, 15
f and 11 in proper position in the sheath 5| and,
when reciprocated, tamps the insulating powder compactly thereunder, the spaces between the lugs or fins 19 permitting the powder to pass down below the tamper which progressively rises as the powder accumulates -and is tamped thereunder. Thus the powder is supplied and compacted within and around the coils of the helices and around the return wires to completely fill the space in the sheath and hold the resistances in predetermined spaced relation to one another and to the return wires and the resistances and return wires in predetermined spaced relation to the sheath. During operation of the loading machine the sheath 5| is vibrated and the centralizers or tamping tubes 15, 18 and 11 alternately lifted and dropped, while being gradually withdrawn from the sheath as the same fills up, and thus the powdered insulation is both shaken and tamped to make the mass as dense as possible.
Upon completion of the loading operation a metallic washer 51, having suitable openings to accommodate the terminals 84, 85 and 6B, is inserted in the upper end of the sheath against the top of the compacted insulation and the walls of the sheath are crimped on each side of the washer 61, as indicated at 68 and 89, to hold the washer securely in place during the subsequent swaging operation. This completes the formation of the straight loadeg/unit, ready for swaging, as illustrated in Fig.
The loaded unit is then subjected to alswaging than the others.
such as that s hown in Figs` 3 and 5, and may be flattened on top if desired. It forms a simple compact unit in the form of a single heating element which, however, contains a plurality of resistances and is adaptable in any of the manners heretofore described to provide a plurality of stages of heat. It is found that, due to the hardness and density of the compacted insulation, the
resistances. and the return wire, despite bendingl cf` the unit into various shapes, retain their relative spacing and parallelism and do not contact or become shorted in any way.
In addition to the forms of the invention heretofore described the principles thereof may also be employed in providing a single sheath heater having more than two resistors, as illustrated in Figs. 10 and 11 of thedrawings which show range top units employing three resistors.
Referring to Fig. 10 the unit shown is a coiled range top heater employing the single metallic sheath leaving two open or terminal ends 8| and 82. Extending through the sheath are three resistance helices 83, 84A and 85, the sheath beingfllled with compacted insulation as previously described. Inside one terminal end 8| of the unit the three resistors are electrically connected together, as by a connector member 88, to which is in turn connected a low resistance terminal wire 81 forming one of the terminals of the unit. At the other end 82 of the heater the three resistors are provided with the separate terminal wires 88, 89 and 90 respectively, and these wires project from the end of the unit as three separate terminals. Thus the unitot the present embodimenthas four separate terminals and these are connectible to known control devices which. will energize the resistors 88, 84 and 85 in many different relationships from a three wire power source.
Fig. 11 shows an adaptation of the invention similar to Fig. 10 but wherein a return wire as well vas three resistors extend through the unit,
all four of vthe terminals emerging from one end ,of the sheath.
'by a connector member |00, and to a .low resistance return Wire The latter Iextends through the sheath along with the three resistors and emerges at the open end of the unit as a fourth terminal |02. The four terminals 91, 98, 99 and |02 are adapted to be connected to a control device in the same manner described in connection with the heater of Fig. 10.
In employing three or more resistors, as in the adaptation-s of Figs. 10 and 11, it will be advantageous if at least one of the resistors has markedly different electrical resistance properties In this way an increased number of' variations in heat output may be realized by different connections with the power source.
It will also be understood that a sheathed re- 1l sistor of the above type may be made with only a single resistor and a low resistance return wire which are connected together at one closed end of the sheat and have their two terminals at the other end of the sheath. Such unit would be usable'with ordinary switch for single heat or with intermittent control, such as disclosed in Potter Patent 2,294,573 for infinitely variable heat.
Heating units such as described above are advantageous not only because of the economies occasioned by the use of a single tube instead of the several tubes heretofore used in the individual sheathing of each resistance, and the economies in operations in producing, forming and assembling a single multiple resistance unit instead of a number of separate individual resistance units, but there are fewer unit ends to be extended away from the immediate heating zone to the place of electrical connection with the terminals of the resistances and a resultant economy therefrom in the length of tubing and resistances and the amount of insulation that is required. Moreover with the resistances contained in a single tube there is an increased heating efficiency because of the lesser surface area to be cooled by the surrounding air.
Furthermore the adaptation of the invention of the form shown in Figs. 3, 11 and 12 in which the sheathing tube has all of the terminals located at one end and is closed at the other end, not only effects an added economy because of the saving of the length of tubing, resistances and the amount of insulation that would otherwise be required to extend the latter end to a suitable place for making electrical connections with the terminals at that end, but it also affords a more convenient coiling arrangement.
In addition to the above noted advantages of the closed end unit, such unit because its terminals are all at one end is adaptable to a simple and convenient pivotal mounting which will permit the unit to be lifted from its normal operative position to an elevated position affording underneath access which is required with the usual cooking units for cleaning the unit and the structure thereunder, an exemplification of such simple and convenient pivotal mounting being disclosed in a separate application #566,856 filed by me on December 6, 1944.
While I have shown and described my invention in preferred forms, various changes and modifications may be made therein without departure from the principles of my invention, the scope of which is to be determined by the appended claims.
What is claimed is:
1. An electric heater of the class described comprising a metal sheath of preformed tubing which is bent into a crooked form having a correspondingly crooked non-rectilinear longitudinal axis and has at least two conductors therein correspondingly bent and extending lengthwise thereof, said tubing having insulating powder compressed therein into a hard dense mass within which said conductors are embedded in spaced apart relation throughout their length, and said conductors being connected together within one end of the tubing and each having at the other end of the tubing a separate terminal extending therefrom through that end of the tubing, at least one of said conductors being a helical resistance, said insulating powder and conductors conjointly occupying and completely filling the attains interior of the metal tube throughout the length of the latter between the ends of the conductors.
2. An electric heater oi the class described comprising a metal sheath of preformed tubing which is bent into a crooked form having a correspondingly crooked non-rectilinear longitudinal axis and has at least two conductors therein correspondingly bent and extending lengthwise thereof in separate zones substantially parallel with and spaced apart transversely of the longitudinal axis of the tubing, said tubing having insulating powder compressed, therein into a hard dense mass within which said conductors are embedded, and said conductors being connected together within one end of the tubing, and each having at the other end of the tubing a separate terminal extending therefrom through that end of the tubing, at least one of said conductors being a helical resistance, said insulating powder and conductors conjointly occupying and completely filling the interior of the metal tube throughout the length of the latter between the ends of the conductors.
3. An electric heater of the class described comprising a metal sheath of preformed tubing which is closed at one end and bent into a crooked form having a. correspondingly crooked non-rectilinear longitudinal axis and has at least two conductors therein correspondingly bent and extending lengthwise thereof, said tubing having insulating powder compressed therein into a hard dense mass in which said conductors are embedded in spaced apart relation throughout their length, and said conductors being connected together within the closed end of the tubing and each having at the other end of the tubing a separate terminal extending therefrom through that end of the tubing, at least one of said conductors being a helical resistance, said insulating powder and conductors conjointly occupying and completely filling the interior of the metal tube throughout the length of the latter between the ends of the conductors.
4. An electric heater of the class described comprising a metal sheath of preformed tubing which is bent into a crooked form having a correspondingly crooked non-rectilinear longitudinal axis and has at least three conductors therein correspondingly bent and extending lengthwise thereof, at least two of which said conductors are helical resistances, said tubing having powder` compressed therein into a hard dense mass in which said conductors are embedded in spaced apart relation throughout their length, and said tubing being closed at one end and at the other end thereof each of said conductors having a separate'terminal extending therefrom through that end of the tubing, and each of said conductors having the end thereof remote from its respective terminal connected within the tubing with another one of said conductors, said insulating powder and conductors conjointly occupying and completely filling the interior of the metal tube throughout the length of the latterbetween the ends of the conductors.
5. An electric heater of the class described comprising a metal sheath of preformed tubing which is closed at one end and bent into a crooked form having a correspondingly crooked non-rectilinear longitudinal axis and has therein a wire resistance helix correspondingly bent and extending lengthwise thereof, said helix having an outstretched continuation of the wire thereof extending back through the tubing from the closed end thereof tothe other end thereof, insulating powder in the tubing compactly confined thereby in a. hard audace 13 dense mass in which said helix and outstretched continuation are embedded in spaced apart relation throughout their length, and two separate terminals leading respectively from said helix and continuation and projecting from the last mentioned end of the tubing, said insulating powder, helix and continuation thereof conjointly occupying and completely mung the interior of the metal tube throughout the length of the latter between the ends of said helix and the continuation thereof.
6. An electric heater of the class described comprising a metal sheath of preformed tubing which is closed at one end and bent into a crooked form having a correspondingly crooked non-rectilinear longitudinal axis and has therein at least two wire resistance helices correspondingly bent and extending lengthwise thereof, each of said helices having an outstretched continuation of the wire thereof extending back through the tubing from the closed end thereof to the other end thereof, insulating powder in the tubing compactly conilned thereby in a hard dense mass in which the two helices are embedded in spaced apart relation throughout their length from one another and from both continuations, and three separate terminals projecting from the last mentioned end of the tubing, two of which said terminals leadfvrespectively from the helices and the other of which leads from both outstretched continuations, said insulating powder, helices and continuations thereof conjointly occupying and completely nlling the interior of the metal tube throughout the length of the latter between the ends of said helices andthe continuations thereof.
'7. An electric heater comprising a length of preformed metal tubing having therein a plurality of helical resistors extending lengthwise ythereof separately in side by side relation, and
' insulating powder in said tubing compactiy conk:lined thereby in a hard dense mass within which said resistors are embedded and by which the resistors are separated and insulated from one another and from the tubing throughout their length, at least a portion ofthe length of the tubing and of the insulated resistors therein being bent in longitudinally curved form, and said resistors having at one end of the tubing separate terminals leading respectively therefrom and pro- Jecting from said end of the tubing, said insulate ing powder and resistors occupying and completely lling the interior of the metal tube throughout the length of the' latter between thev ends of the resistors.
8. An electric heater comprising a length of preformed metal tubing having therein a plurality of helical resistors extending lengthwise thereof separately in side by side relation, a'n insulating powder in said tubing compactly confined thereby in a hard dense mass within which said resistors are embedded and by which the resistors are separated and insulated from one another and from the tubing throughout their length, and terminals leading respectively from the resistors and all projecting from the same end of the tubing, said tubing, resistors and compacted insulating powder being conjointiy bent in flat serpentine form, said insulating powder and resistors occupying and completely filling the interior of the metal tube throughout the length of the latter between the ends of the resistors.
9. An electric heater of the class described comprising a metal sheath of preformed tubing bent in fiat serpentine form and having therein at least two conductors extending lengthwise thereof and joined together within one end of the tubing, said conductors having separate terminals leading therefrom respectively through the 'other end of the tubing, and insulating powder in the tubing, compactly confined thereby in a hard dense mass in which said conductors are embedded in spaced apart relation throughout their length. one of said conductors being a helical resistance, said insulating powder and conductors conJointly occupying and completely filling the interior of the metal tube throughout the length oi' the latter between the ends of the conductors. 10. An electric heater of the class described comprising a metal sheath of preformed tubing closed at one end and coiled in fiat serpentine form, said tubing having therein two resistance helices extending lengthwise thereof in laterally spaced relation to one another and both lying in substantially the same plane, said helices being joined together at the closed end of the tubing and` each having a separate terminal leading therefrom through the other end of the tubing, and insulating powder in the tubing compactly conned thereby in a hard dense mass in which the resistancevheiices are embedded in substantially parallel spaced apart relation throughout their length, said insulating powder and resistors occupying and completely filling the interior of the metal tube throughout the length of the latter between the ends of the resistors.
1l. An electric heater of the class described comprising a. metal sheath of preformed tubing closed at one end and coiled in flat serpentine form, said tubing being flattened at one side of the plane of the flat serpentine form and having y therein two resistance helices extending lengthwise thereof in laterally spaced relation to one another, and both lying in substantially the same plane, and a return conductor in the tubing leading from the`ends of the helices at the closed end of the tubing to the other end of the tubing, insulating powder in the tubing compactlyv confined thereby in a hard dense mass in which the helices and conducter are embedded in substantially parallel spaced apart relation throughout their length, and three separate terminals projecting from the last mentioned end of the tubing and leading respectively from the two helices and the conductor, said insulating powder and helices coniointly occupying and completely filling the interior of the metal tube throughout the length of the latter between the ends of the helices.
l2. A metal sheathedv electrical heater of the yclass described comprising a preformed metal tube -flattened along one side andcoiled in a at serpentine winding with the flattened side of the tubing lying in the plane of one side of the serpentine winding, a pair of laterally spaced helical resistances in the tubing and extending lengthwise of and in substantially equal proximity to the flattened -side of the tubing, said tubing being closed at one end and each resistance having a separate terminal projecting therefrom through the other end of the tubing, and powdered insulation in the tubing and confined thereby in a hard dense mass within which the resistances and the inner ends of the terminals are embedded, said powdered insulation and resistances conjointly occupying and completely filling the interior of the metal tube throughout the length of the latter between the ends of the resistances.
13. The method of making a metal sheathed plural resistance electrical heater which comprises inserting a plurality of helical resistances in side by side relation endwise into a length of preformed metal tubing, and supporting the resistances at their ends in separated relation so that they extend lengthwise in the tubing in substantially parallel side by side relation, then gradually introducing an insulating powder into one end of the tubing, and at the same time progressively packing said insulating powder around and within all of the resistors simultaneously so as to hold the resistors in predetermined separated relation from one another and from the tubing solely by the compacted insulating powder, then swaging the tubing transversely to a reduced size and thereby further compacting the insulating powder therein, and thereafter coiling the tubing and contents into flat serpentine form.
14. The method of making a metal sheathed electrical heater ot the class described which comprises inserting two helical resistances endwise into a length of preformed metal tubing through an end of the latter, supporting said inserted helices at the opposite ends thereof in a manner to hold the resistances outstretched respectively at opposite sides of the interior of the tubing and while thus supported progressively lling the tubing with powdered insulation and packing the powdered insulation in and around the resistances progressively throughout their length so as to embed the resistances within compacted insulation and thereby hold the resistances away from the tubing wall and in parallel spaced apart relation at opposite sides respectively of the interior oi the tubing solely by the compacted insulating powder, then bending the tubing with 16 the insulation and helices therein into a nat serpentine winding wherein both helices lie substantially in the same plane between the opposite sides of the fiat serpentine winding, and thereafter flattening the tubing transversely in a direction perpendicular to said last mentioned plane of one side of the serpentine winding and simultaneously deformlng and flattening both helices at the sides thereof nearest the latter plane.
WILLIAM R. TUTTLE.
REFERENCES CITED The following references are of record in the
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DEP27744D DE913940C (en) 1944-12-06 1948-12-29 Rotatable heater

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US2511910A (en) * 1950-06-20 Electric heater
US2568846A (en) * 1948-05-03 1951-09-25 Cutler Hammer Inc Method of constructing electric heaters
US2600605A (en) * 1948-11-18 1952-06-17 Christian B Backer Multiple coil tubular heating element
US2632833A (en) * 1950-06-03 1953-03-24 Knapp Monarch Co Heating element with internal return lead
US2632834A (en) * 1950-06-17 1953-03-24 Knapp Monarch Co Multiple heating element
US2643317A (en) * 1950-02-11 1953-06-23 Tuttle & Kift Inc Electric heater
US2662158A (en) * 1951-07-28 1953-12-08 Gen Electric Heating unit and method of making the same
US2670529A (en) * 1950-03-20 1954-03-02 Electro Therm Method of assembling an electrical heating unit of the liquid immersion type
US2961632A (en) * 1956-06-28 1960-11-22 Ind Engineering And Equipment Terminal structure for electrical heating unit
US4046989A (en) * 1976-06-21 1977-09-06 Parise & Sons, Inc. Hot water extraction unit having electrical immersion heater
DE3727732A1 (en) * 1987-08-20 1989-03-02 Asea Brown Boveri DEVICE FOR ELECTRICALLY HEATING TUBES, CONTAINERS AND THE LIKE
US5703998A (en) * 1994-10-20 1997-12-30 Energy Convertors, Inc. Hot water tank assembly
US6188051B1 (en) 1999-06-01 2001-02-13 Watlow Polymer Technologies Method of manufacturing a sheathed electrical heater assembly
US6263158B1 (en) 1999-05-11 2001-07-17 Watlow Polymer Technologies Fibrous supported polymer encapsulated electrical component
US6392208B1 (en) 1999-08-06 2002-05-21 Watlow Polymer Technologies Electrofusing of thermoplastic heating elements and elements made thereby
US6392206B1 (en) 2000-04-07 2002-05-21 Waltow Polymer Technologies Modular heat exchanger
US6433317B1 (en) 2000-04-07 2002-08-13 Watlow Polymer Technologies Molded assembly with heating element captured therein
US6432344B1 (en) 1994-12-29 2002-08-13 Watlow Polymer Technology Method of making an improved polymeric immersion heating element with skeletal support and optional heat transfer fins
US6516142B2 (en) 2001-01-08 2003-02-04 Watlow Polymer Technologies Internal heating element for pipes and tubes
US6519835B1 (en) 2000-08-18 2003-02-18 Watlow Polymer Technologies Method of formable thermoplastic laminate heated element assembly
US20050098684A1 (en) * 2003-03-14 2005-05-12 Watlow Polymer Technologies Polymer-encapsulated heating elements for controlling the temperature of an aircraft compartment
US20110074380A1 (en) * 2008-05-28 2011-03-31 Silveray Co., Ltd. Electric conduction pad and manufacturing method thereof

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US2508552A (en) * 1945-08-20 1950-05-23 Tuttle & Kift Inc Electric heater
DE970829C (en) * 1951-06-03 1958-10-30 Karl Fischer Radiant hotplate for an electric stove
DE1264720B (en) * 1957-06-06 1968-03-28 Kockums Jernverks Aktiebolag Storage for swiveling electric tubular grate hotplates of cooking appliances
DE1208056B (en) * 1958-02-17 1965-12-30 Licentia Gmbh Device for collecting overflow material on electric stoves equipped with tubular grate hotplates or the like.
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US2511910A (en) * 1950-06-20 Electric heater
US2568846A (en) * 1948-05-03 1951-09-25 Cutler Hammer Inc Method of constructing electric heaters
US2600605A (en) * 1948-11-18 1952-06-17 Christian B Backer Multiple coil tubular heating element
US2643317A (en) * 1950-02-11 1953-06-23 Tuttle & Kift Inc Electric heater
US2670529A (en) * 1950-03-20 1954-03-02 Electro Therm Method of assembling an electrical heating unit of the liquid immersion type
US2632833A (en) * 1950-06-03 1953-03-24 Knapp Monarch Co Heating element with internal return lead
US2632834A (en) * 1950-06-17 1953-03-24 Knapp Monarch Co Multiple heating element
US2662158A (en) * 1951-07-28 1953-12-08 Gen Electric Heating unit and method of making the same
US2961632A (en) * 1956-06-28 1960-11-22 Ind Engineering And Equipment Terminal structure for electrical heating unit
US4046989A (en) * 1976-06-21 1977-09-06 Parise & Sons, Inc. Hot water extraction unit having electrical immersion heater
DE3727732A1 (en) * 1987-08-20 1989-03-02 Asea Brown Boveri DEVICE FOR ELECTRICALLY HEATING TUBES, CONTAINERS AND THE LIKE
US5703998A (en) * 1994-10-20 1997-12-30 Energy Convertors, Inc. Hot water tank assembly
US6432344B1 (en) 1994-12-29 2002-08-13 Watlow Polymer Technology Method of making an improved polymeric immersion heating element with skeletal support and optional heat transfer fins
US6263158B1 (en) 1999-05-11 2001-07-17 Watlow Polymer Technologies Fibrous supported polymer encapsulated electrical component
US6434328B2 (en) 1999-05-11 2002-08-13 Watlow Polymer Technology Fibrous supported polymer encapsulated electrical component
US6188051B1 (en) 1999-06-01 2001-02-13 Watlow Polymer Technologies Method of manufacturing a sheathed electrical heater assembly
US6392208B1 (en) 1999-08-06 2002-05-21 Watlow Polymer Technologies Electrofusing of thermoplastic heating elements and elements made thereby
US6392206B1 (en) 2000-04-07 2002-05-21 Waltow Polymer Technologies Modular heat exchanger
US6433317B1 (en) 2000-04-07 2002-08-13 Watlow Polymer Technologies Molded assembly with heating element captured therein
US6748646B2 (en) 2000-04-07 2004-06-15 Watlow Polymer Technologies Method of manufacturing a molded heating element assembly
US6541744B2 (en) 2000-08-18 2003-04-01 Watlow Polymer Technologies Packaging having self-contained heater
US6519835B1 (en) 2000-08-18 2003-02-18 Watlow Polymer Technologies Method of formable thermoplastic laminate heated element assembly
US6539171B2 (en) 2001-01-08 2003-03-25 Watlow Polymer Technologies Flexible spirally shaped heating element
US6744978B2 (en) 2001-01-08 2004-06-01 Watlow Polymer Technologies Small diameter low watt density immersion heating element
US6516142B2 (en) 2001-01-08 2003-02-04 Watlow Polymer Technologies Internal heating element for pipes and tubes
US20050098684A1 (en) * 2003-03-14 2005-05-12 Watlow Polymer Technologies Polymer-encapsulated heating elements for controlling the temperature of an aircraft compartment
US20110074380A1 (en) * 2008-05-28 2011-03-31 Silveray Co., Ltd. Electric conduction pad and manufacturing method thereof

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Publication number Publication date
CH264858A (en) 1949-11-15
DE913940C (en) 1954-06-24

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