US2899663A - Annularly bulged elkctric heating unit - Google Patents

Annularly bulged elkctric heating unit Download PDF

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US2899663A
US2899663A US2899663DA US2899663A US 2899663 A US2899663 A US 2899663A US 2899663D A US2899663D A US 2899663DA US 2899663 A US2899663 A US 2899663A
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heating unit
sheath
insulation
bulge
length
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    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05BELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
    • H05B3/00Ohmic-resistance heating
    • H05B3/02Details
    • H05B3/06Heater elements structurally combined with coupling elements or holders
    • 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

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  • This invention relates to electric heating units of the type wherein one or more heating resistances are embedded in compacted electrical insulation within a tubular sheath, and has reference more particularly to the provision of such heating unit with an annular bulge.
  • the principal objects of the invention are, to provide an improved external stop or the like for heating units of the above mentioned type; to employ a part of the heating unit sheath as the stop; to provide an improved method of making such stop; to compact the insulation in the sheath in the formation of the stop; and to locally increase the density of the insulation at the place where the stop is formed and increase the resistance thereof to entrance of moisture, these and other objects being accomplished as pointed out more particularly hereinafter and as shown in the accompanying drawing in which:
  • Fig. 1 is a side view of an electrical heating unit mounted in a trough shaped reflector and wherein the heating unit is provided with an annular enlargement or bulge made in accordance with the invention hereof and utilized as a stop for mounting the heating unit in the reflector;
  • Fig. 2 is a View looking at the left hand end of the combined reflector and heating unit of Fig. 1;
  • Fig. 3 is an enlarged sectional view, taken on the line 33 of Fig. 1, of the end portion of the heating unit where it is provided with the annular enlargement in ac cordance with the present invention
  • Fig. 4 is a sectional view showing the heating unit clamped in holders preparatory to the forming of the enlargement of Fig. 3, an intermediate portion of the heating unit and one of the clamps being broken away;
  • Fig. 5 is a view, somewhat reduced, looking at the right hand end of the structure of Fig. 4;
  • Fig. 6 is a view, similar to that of Fig. 4, showing the completion of the operation of forming the enlargement of the heating unit end;
  • Fig. 7 shows a modification of the portion of the heating unit end of Fig. 3.
  • the reference numeral 10 indicates a tubular sheathed insulation-embedded resistor type of electrical heating unit which is made in a straight length and, for purposes of illustration, this heating unit is shown mounted in a trough shaped reflector 11 having opposite end walls 12 provided with aligned openings 13 in which the heating unit is mounted.
  • the heating unit is formed near one end thereof, in accordance with the invention hereof, with an annular bulge 14 providing a local enlargement to serve as a stop and the heating unit is mounted in the reflector 11 by merely inserting it through the openings 13 in the end walls 12 of the reflector until the annular bulge or stop 14 at the one end of the heating unit bears against the outer side of the wall 12 at one end of the reflector and applying a fastener 15 to the other end of the heater at the outer side of the wall 12 at the other end of the reflector so as to bear against the latter wall and conjointly with the annular bulge 14, hold the heating unit against endwise movement in the reflector 11.
  • the fastener 15 may be of any desired form suitable for the purpose, a conventional one way slidable type being shown which is of washer shape having a central opening which snugly accommodates the heating unit and is radially slitted as at 16 to provide locking fingers by which it is locked on the heating unit against removal when slid in place thereon.
  • the heating unit 10 is of conventional construction, except for the provision thereof with the bulge 14, and comprises a tubular metal sheath 17 containing a compacted mass of powdered or granular refractory electrical insulating material 18, such for example as magnesium oxide, in which is embedded an electrical heating resistor 19 which has terminal wires 20 and 21 connected thereto at the opposite ends and extending outwardly through the compacted insulation 18 to the respective ends of the sheath where they project therebeyond for attachment of current supply conductors thereto.
  • the insulation 18 is compacted to high density.
  • the heating unit 10 having the insulation 18 already compacted therein, is locally contracted endwise at the place where the bulge is to be formed, thereby crowding both the length of the sheath 17 and the compacted insulation 18 at that place into a sufficiently shorter length to provide surplus insulation and sheath length which are reshaped into a form determined by pressure conditions occurring at the time.
  • the endwise pressure exerted thereon at the place where the heating unit is thus contracted lengthwise locally redistributes the insulation and imparts a very high peripheral bulging tendency thereto which acts upon the portion of the sheath 17 therearound, and as the latter is at the same time being correspondingly contracted in length at the same place, this peripheral bulging tendency of the insulation causes the sheath 17 to bulge outwardly into the form of an annular corrugation and thereby produce the annular local enlargement or stop 14.
  • the insulation 18 be previously compacted to a substantial extent so that it is .sufliciently solid to insure bulging thereof when the heating unit is contracted lengthwise as aforesaid, and l have found it advantageous to compact the insulation, before bulging, to the extent to which it is usually compacted in completed heating units of tubular sheathed types.
  • the heating unit may be made and completed in the usual manner preparatory to the forming of the bulge thereof, and as it is customary to compact the insulation in such heating units to a hard, solid mass, sufficient density thereof is assured to cause positive and substantial bulging.
  • the bulging operation it is also important, in the bulging operation, to circumferentially confine the heating unit 10 at the opposite sides of the place where the endwise contracting of the heating unit actually occurs, so as to localize the bulging and insure an abrupt and pronounced bulging at the selected place, and it is also important, especially if the bulge is to beformed near to an end of the heating unit, to close or substantially close that end of the sheath in a manner to prevent outward movement of the insulation and thereby insure lengthwise contracting of the insulation in conformity with or in substantial conformity with the shortening of the tubular sheath length.
  • Both ends of the heating unit may be closed if desired so as to prevent outward movement of the insulation both ends, but when the heating unit is of considerable length and an enlargement or bulge 14 is to be provided near one end only thereof, as in the case of the illustrated heating unit, the length of the insulation in the tubular sheath between the place of bulging and the re mote end of the heating unit, and the extent to which the insulation is usually compacted in the sheath before the enlargement or stop forming operation, is usually sufficient to prevent displacement of the insulation in the portion of the sheath between the place of bulging and the remote sheath end without closing the sheath at such remote end.
  • the facilities which circumferentially confine the heating unit, as aforesaid, at the opposite sides of the place where the endwise contracting of the heating unit occurs be relatively movable so that one may be moved to and from the other, and that they grip the heating unit sufliciently securely so that they prevent expansion of the heating unit therein and serve as the instrumentalities by which the lengthwise contracting of the heating unit and the forming of the bulge or enlargement 14 is accomplished.
  • Figs. 4-, 5 and 6 two clamps 22 and 23 each of which is composed of two clamping halves, those of the clamp 22 being indicated at 24 and 25 and those of the clamp 23 being indicated at 26 and 27, and the clamping halves of each clamp 22 and 23 may be hinged together in a manner indicated at 28 in Fig. 5 to swing to and from one another, and each pair of clamping halves may be provided with one or more clamping bolts 29 for clamping the halves there- I of together.
  • Each clamp 22 and 23 is cavitied to receive and clamp a portion of the length of the heating unit therein, the
  • clamp 22 being provided with matching approximately semi-cylindrical recesses '30 and 31, respectively, in the 33, respectively, in the halves 26 and 27 thereof which conjointly form the cavity of the clamp 23 and likewise conform to the peripheral contour of the heating unit it) 'and when the halves 32 and 33 are closed together or nearly together are adapted to securely clamp another portion of the length of the heating unit 10 therebetween.
  • These clamps are merely illustrative of facilities which may be used to accomplish the present invention and any other facilities may be employed which are suitable for the purpose.
  • the illustrated clamps are designed to form a bulge in the heating unit near one end thereof as in the illustrated heating unit and, accordingly, the cavity 3h3l of the clamp 22 is of short length, as shown in Figs. 4 and 6, to accommodate therein only a short end portion of the heating unit 10 corresponding to that from the bulge 14 to the nearby end of the heating unit It), and this cavity -31 is closed or substantially closed at one end by matching walls 34 and 35 of the clamp halves 24 and 4 25, ,which said walls conjointly provide an abutment against which the inserted end of the heating unit engages and also provide an end closure or sufiicient end closure for the sheath 17 to prevent outward movement of the insulation 18 from that end of the sheath in the bulging operation.
  • the clamping halves 24 and 25 have the grooves 36 and 37, respectively, in their inner faces.
  • the cavity 3233 of the clamp 23 is of greater length than the cavity 30-31 and may be of sufficient length to accommodate therein the full length of the heating unit it from the bulge 14 to the remote end thereof, as shown in Fig. 4, and at one end thereof this cavity 32--33 is or may be closed or substantially closed by matching walls 38 and 39, respectively, of the clamp halves 26 and 27, which said matching walls serve the same purpose as the walls 34 and 35 of the clamp 22.
  • the clamping halves 26 and 27 are also provided in their inner faces with the grooves 4t and 41 to accommodate the projecting end of the terminal 22.
  • the clamp 23 extend the full length of that portion of the heating unit from the bulge 14 to the remote end, as illustrated, and that it be provided with the walls 38 and 39 for closing the end of the cavity, although it is important that the clamp 23 and the cavity therein be of such length to assure sufficient gripping of the heating element 22 or 23 is retractable from the other to accommodate and clamp the unbulged heating unit 10 therein, as shown in Fig. 4, and is advanceable thereafter toward the other to a position as shown in Fig.
  • heating units of the type to which this invention relates it is important that the insulation 18 be compacted to sufficient density or other facilities provided at or within the open sheath end to exclude penetration of moisture into the interior of the sheath, and especially to the place therein where the resistance 19 is located as the resistance is usually sufficiently close to the sheath that current leakage or shorts may occur if moisture penetrates to the insulation therebetween, and considerable diificulty has been experienced heretofore in effectively 'sealing the heating unit end against entrance of moisture.
  • the forming of the bulge 14 in the manner above explained not only provides a simple and advantageous peripheral enlargement to serve as a stop or the like, but, in addition, provides an efiective seal against entrance of moisture into the heating unit.
  • the insulation 13 within that portion of the heating unit length is disintegrated and redistributed under a high pressure which is concentrated in that particular zone and compacts the insulation locally at that place to a sufficiently great density and such intimacy of contact with the sheath 17 at the bulge 14 and the terminal wire 21 that the thus redistributed and compacted insulation forms an eifective barrier to exclude penetration of moisture.
  • the heating unit may be prepared, before the bulging operation, with a plug of a plastic material 42 (see Fig. 7) of silicone rubber or the like, of initial length corresponding, for example, to the distance between the dotted lines 42 -42 interposed between separated portions of the compacted powdered or granular insulation 18 so that in the lengthwise shortening of the heating unit to form the bulge 14, the major compression of the insulation is concentrated in the plug 42, which is thereby highly compressed and shaped to conform to the interior of the bulge and provides a moisture proof barrier.
  • a plastic material 42 see Fig. 7
  • silicone rubber or the like of initial length corresponding, for example, to the distance between the dotted lines 42 -42 interposed between separated portions of the compacted powdered or granular insulation 18 so that in the lengthwise shortening of the heating unit to form the bulge 14, the major compression of the insulation is concentrated in the plug 42, which is thereby highly compressed and shaped to conform to the interior of the bulge and provides a moisture proof barrier.
  • any annular enlargement or bulge 14 would ordinarily be formed near an end of the heating unit where a terminal conductor leads outwardly therefrom, as shown and described herein, such enlargement or bulge may be formed at any place intermediate the ends of the heating unit and moreover it is to be understood that the heating unit may be provided with more than one annular enlargement 14 and spaced apart at any desired distance from one another to serve, for example, as stops at the opposite ends of a barrier, and that the invention may be employed with tubular sheathed heating units of forms other than of straight length, for example at the terminal ends of spirally formed range surface heating units, and with heating units having more than one heating resistor therein, and that various other changes and modifications may be made without departing from the principles of the invention, the scope of which is to be determined by the appended claims.
  • An electric heating unit which comprises an elongated tubular sheath containing compacted electrical insulating material with a heating resistance embedded therein, the said sheath being provided at a place spaced from the sheath ends with an annular shoulder which extends around the sheath and projects abruptly outward therefrom and comprises an intermediate portion of the length of the sheath compressed lengthwise to a reduced axial length and distended circumferentially to an increased circumferential length imparting the said annular projecting shoulder form thereto, the insulation in the sheath adjacent the shoulder being compacted to a higher density than the density initially present.
  • An electric heating unit in accordance with claim 1 in which the lengthwise compressed circumferentially distended intermediate portion of the sheath contains a mass of electrical insulating material compacted in conformity to the interior surface of said intermediate portion.
  • An electric heating unit in accordance with claim 1 in which the lengthwise compressed circumferentially distended intermediate portion of the sheath contains a localized mass of electrical insulation which is composed at least partly of a plastic sealing material and peripherally compacted in conformity to the interior surface of said intermediate portion.
  • An electric heating unit in accordance with claim 1 in which the annular shoulder is near one end of the sheath and the lengthwise compressed circumferentially distended portion of the sheath contains a localized mass of electrical insulating material locally compacted to high density and confonned peripherally to the interior surface of said portion of the sheath.
  • An electric heating unit in accordance with claim 1 wherein the tubular sheath is encircled by a holder at one side of the annular shoulder and the annular shoulder is engageable sidewise against the holder to limit endwise movement of the sheath in the holder.
  • the method of providing a tubular sheathed embedded resistor electric heater with an annular shoulder spaced from the ends of and projecting abruptly outward from the tubular sheath of the heater comprising the steps of first installing electrical insulation compactly in the tubular sheath and thereafter axially compressing locally to axially shorten circumferentially enlarged annular shoulder shape a selected portion of the length of the tubular sheath which is spaced from the sheath ends and has electrical insulation already compactly installed therein, while at the same time axially compressing the insulation adjacent said selected portion to a density greater than that initially present.

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Description

Aug. 11, 1959 E. J. ROSS ANNULARLY BULGED ELECTRIC HEATING UNIT AND 1 METHOD ANNULARLY BULGING SAME ed Sept. 6, 1955 27 E I I i5, 1. i l E n 14 j INVENTOR.
v y I I lfizgzgafd 1 0625 2,899,663 Patented Aug. 11, 1959 nice ANNULARLY BULGED ELECTRIC HEATING UNlT AND METHOD OF ANNULARLY BULGIN G SAME Edward J. Ross, Batavia, 111., assignor, by assfgw ments, to Ferro Corporation, Cleveland, 61th), a corporation of Ohio Application September 6, 1955, Serial No. 532,664
13 Claims. (Cl. 338238) This invention relates to electric heating units of the type wherein one or more heating resistances are embedded in compacted electrical insulation within a tubular sheath, and has reference more particularly to the provision of such heating unit with an annular bulge.
It is oftentimes desirable to provide such heating units with a peripheral projection or enlargement to serve as a stop to prevent endwise movement of the heating unit in a mounting or for other similar purpose, and the annular bulge of this invention is adapted to serve as such stop.
Moreover, in such heating units it is important to provide a barrier in the terminal end or ends of the heating unit sheath to prevent entrance of moisture into the interior thereof and the formation of the annular bulge in accordance with this invention assures an effective bar rier.
The principal objects of the invention are, to provide an improved external stop or the like for heating units of the above mentioned type; to employ a part of the heating unit sheath as the stop; to provide an improved method of making such stop; to compact the insulation in the sheath in the formation of the stop; and to locally increase the density of the insulation at the place where the stop is formed and increase the resistance thereof to entrance of moisture, these and other objects being accomplished as pointed out more particularly hereinafter and as shown in the accompanying drawing in which:
Fig. 1 is a side view of an electrical heating unit mounted in a trough shaped reflector and wherein the heating unit is provided with an annular enlargement or bulge made in accordance with the invention hereof and utilized as a stop for mounting the heating unit in the reflector;
Fig. 2 is a View looking at the left hand end of the combined reflector and heating unit of Fig. 1;
Fig. 3 is an enlarged sectional view, taken on the line 33 of Fig. 1, of the end portion of the heating unit where it is provided with the annular enlargement in ac cordance with the present invention;
Fig. 4 is a sectional view showing the heating unit clamped in holders preparatory to the forming of the enlargement of Fig. 3, an intermediate portion of the heating unit and one of the clamps being broken away;
Fig. 5 is a view, somewhat reduced, looking at the right hand end of the structure of Fig. 4;
Fig. 6 is a view, similar to that of Fig. 4, showing the completion of the operation of forming the enlargement of the heating unit end; and
Fig. 7 shows a modification of the portion of the heating unit end of Fig. 3.
Referring to the drawing, the reference numeral 10 indicates a tubular sheathed insulation-embedded resistor type of electrical heating unit which is made in a straight length and, for purposes of illustration, this heating unit is shown mounted in a trough shaped reflector 11 having opposite end walls 12 provided with aligned openings 13 in which the heating unit is mounted.
For mounting the heating unit in the reflector 11, the heating unit is formed near one end thereof, in accordance with the invention hereof, with an annular bulge 14 providing a local enlargement to serve as a stop and the heating unit is mounted in the reflector 11 by merely inserting it through the openings 13 in the end walls 12 of the reflector until the annular bulge or stop 14 at the one end of the heating unit bears against the outer side of the wall 12 at one end of the reflector and applying a fastener 15 to the other end of the heater at the outer side of the wall 12 at the other end of the reflector so as to bear against the latter wall and conjointly with the annular bulge 14, hold the heating unit against endwise movement in the reflector 11.
The fastener 15 may be of any desired form suitable for the purpose, a conventional one way slidable type being shown which is of washer shape having a central opening which snugly accommodates the heating unit and is radially slitted as at 16 to provide locking fingers by which it is locked on the heating unit against removal when slid in place thereon.
The heating unit 10 is of conventional construction, except for the provision thereof with the bulge 14, and comprises a tubular metal sheath 17 containing a compacted mass of powdered or granular refractory electrical insulating material 18, such for example as magnesium oxide, in which is embedded an electrical heating resistor 19 which has terminal wires 20 and 21 connected thereto at the opposite ends and extending outwardly through the compacted insulation 18 to the respective ends of the sheath where they project therebeyond for attachment of current supply conductors thereto. The insulation 18 is compacted to high density.
To form the bulge 14 in accordance with the present invention, the heating unit 10, having the insulation 18 already compacted therein, is locally contracted endwise at the place where the bulge is to be formed, thereby crowding both the length of the sheath 17 and the compacted insulation 18 at that place into a sufficiently shorter length to provide surplus insulation and sheath length which are reshaped into a form determined by pressure conditions occurring at the time.
Inasmuch as the insulation 18 is of compacted powdered or granular type, the endwise pressure exerted thereon at the place where the heating unit is thus contracted lengthwise, locally redistributes the insulation and imparts a very high peripheral bulging tendency thereto which acts upon the portion of the sheath 17 therearound, and as the latter is at the same time being correspondingly contracted in length at the same place, this peripheral bulging tendency of the insulation causes the sheath 17 to bulge outwardly into the form of an annular corrugation and thereby produce the annular local enlargement or stop 14.
It is important, in this bulging operation, that the insulation 18 be previously compacted to a substantial extent so that it is .sufliciently solid to insure bulging thereof when the heating unit is contracted lengthwise as aforesaid, and l have found it advantageous to compact the insulation, before bulging, to the extent to which it is usually compacted in completed heating units of tubular sheathed types.
Thus, the heating unit may be made and completed in the usual manner preparatory to the forming of the bulge thereof, and as it is customary to compact the insulation in such heating units to a hard, solid mass, sufficient density thereof is assured to cause positive and substantial bulging.
It is also important, in the bulging operation, to circumferentially confine the heating unit 10 at the opposite sides of the place where the endwise contracting of the heating unit actually occurs, so as to localize the bulging and insure an abrupt and pronounced bulging at the selected place, and it is also important, especially if the bulge is to beformed near to an end of the heating unit, to close or substantially close that end of the sheath in a manner to prevent outward movement of the insulation and thereby insure lengthwise contracting of the insulation in conformity with or in substantial conformity with the shortening of the tubular sheath length.
Both ends of the heating unit may be closed if desired so as to prevent outward movement of the insulation both ends, but when the heating unit is of considerable length and an enlargement or bulge 14 is to be provided near one end only thereof, as in the case of the illustrated heating unit, the length of the insulation in the tubular sheath between the place of bulging and the re mote end of the heating unit, and the extent to which the insulation is usually compacted in the sheath before the enlargement or stop forming operation, is usually sufficient to prevent displacement of the insulation in the portion of the sheath between the place of bulging and the remote sheath end without closing the sheath at such remote end. 7
Moreover, it is preferable that the facilities which circumferentially confine the heating unit, as aforesaid, at the opposite sides of the place where the endwise contracting of the heating unit occurs be relatively movable so that one may be moved to and from the other, and that they grip the heating unit sufliciently securely so that they prevent expansion of the heating unit therein and serve as the instrumentalities by which the lengthwise contracting of the heating unit and the forming of the bulge or enlargement 14 is accomplished.
As an example of facilities which may be employed for contracting the heating unit lengthwise, as aforesaid, 1
to form the bulge 14 thereof, I have shown in Figs. 4-, 5 and 6 two clamps 22 and 23 each of which is composed of two clamping halves, those of the clamp 22 being indicated at 24 and 25 and those of the clamp 23 being indicated at 26 and 27, and the clamping halves of each clamp 22 and 23 may be hinged together in a manner indicated at 28 in Fig. 5 to swing to and from one another, and each pair of clamping halves may be provided with one or more clamping bolts 29 for clamping the halves there- I of together.
Each clamp 22 and 23 is cavitied to receive and clamp a portion of the length of the heating unit therein, the
clamp 22 being provided with matching approximately semi-cylindrical recesses '30 and 31, respectively, in the 33, respectively, in the halves 26 and 27 thereof which conjointly form the cavity of the clamp 23 and likewise conform to the peripheral contour of the heating unit it) 'and when the halves 32 and 33 are closed together or nearly together are adapted to securely clamp another portion of the length of the heating unit 10 therebetween. These clamps are merely illustrative of facilities which may be used to accomplish the present invention and any other facilities may be employed which are suitable for the purpose.
The illustrated clamps are designed to form a bulge in the heating unit near one end thereof as in the illustrated heating unit and, accordingly, the cavity 3h3l of the clamp 22 is of short length, as shown in Figs. 4 and 6, to accommodate therein only a short end portion of the heating unit 10 corresponding to that from the bulge 14 to the nearby end of the heating unit It), and this cavity -31 is closed or substantially closed at one end by matching walls 34 and 35 of the clamp halves 24 and 4 25, ,which said walls conjointly provide an abutment against which the inserted end of the heating unit engages and also provide an end closure or sufiicient end closure for the sheath 17 to prevent outward movement of the insulation 18 from that end of the sheath in the bulging operation.
To accommodate the projecting end of the terminal 21 of the heating unit, the clamping halves 24 and 25 have the grooves 36 and 37, respectively, in their inner faces.
The cavity 3233 of the clamp 23 is of greater length than the cavity 30-31 and may be of sufficient length to accommodate therein the full length of the heating unit it from the bulge 14 to the remote end thereof, as shown in Fig. 4, and at one end thereof this cavity 32--33 is or may be closed or substantially closed by matching walls 38 and 39, respectively, of the clamp halves 26 and 27, which said matching walls serve the same purpose as the walls 34 and 35 of the clamp 22. The clamping halves 26 and 27 are also provided in their inner faces with the grooves 4t and 41 to accommodate the projecting end of the terminal 22.
Since the bulge 14 is located near to one end of the heating unit and there is a considerable length of the heating unit from the bulge to the remote end of the heating unit, it is not essential, as is indicated above, that the clamp 23 extend the full length of that portion of the heating unit from the bulge 14 to the remote end, as illustrated, and that it be provided with the walls 38 and 39 for closing the end of the cavity, although it is important that the clamp 23 and the cavity therein be of such length to assure sufficient gripping of the heating element 22 or 23 is retractable from the other to accommodate and clamp the unbulged heating unit 10 therein, as shown in Fig. 4, and is advanceable thereafter toward the other to a position as shown in Fig. 6 at a sufficiently high pressure to compress the portion of the heating unit between the clamps 22 and 23 to produce the bulge 14. In heating units of the type to which this invention relates it is important that the insulation 18 be compacted to sufficient density or other facilities provided at or within the open sheath end to exclude penetration of moisture into the interior of the sheath, and especially to the place therein where the resistance 19 is located as the resistance is usually sufficiently close to the sheath that current leakage or shorts may occur if moisture penetrates to the insulation therebetween, and considerable diificulty has been experienced heretofore in effectively 'sealing the heating unit end against entrance of moisture.
It is an important feature of the present invention that the forming of the bulge 14 in the manner above explained not only provides a simple and advantageous peripheral enlargement to serve as a stop or the like, but, in addition, provides an efiective seal against entrance of moisture into the heating unit.
In the shortening of the portion of the length of the heating unit between the clamps 22 and 23 from the length thereof in Fig. 4 to the length thereof in Fig. 6, the insulation 13 within that portion of the heating unit length is disintegrated and redistributed under a high pressure which is concentrated in that particular zone and compacts the insulation locally at that place to a sufficiently great density and such intimacy of contact with the sheath 17 at the bulge 14 and the terminal wire 21 that the thus redistributed and compacted insulation forms an eifective barrier to exclude penetration of moisture.
For increased or more positive sealing effect, the heating unit may be prepared, before the bulging operation, with a plug of a plastic material 42 (see Fig. 7) of silicone rubber or the like, of initial length corresponding, for example, to the distance between the dotted lines 42 -42 interposed between separated portions of the compacted powdered or granular insulation 18 so that in the lengthwise shortening of the heating unit to form the bulge 14, the major compression of the insulation is concentrated in the plug 42, which is thereby highly compressed and shaped to conform to the interior of the bulge and provides a moisture proof barrier.
While any annular enlargement or bulge 14 would ordinarily be formed near an end of the heating unit where a terminal conductor leads outwardly therefrom, as shown and described herein, such enlargement or bulge may be formed at any place intermediate the ends of the heating unit and moreover it is to be understood that the heating unit may be provided with more than one annular enlargement 14 and spaced apart at any desired distance from one another to serve, for example, as stops at the opposite ends of a barrier, and that the invention may be employed with tubular sheathed heating units of forms other than of straight length, for example at the terminal ends of spirally formed range surface heating units, and with heating units having more than one heating resistor therein, and that various other changes and modifications may be made without departing from the principles of the invention, the scope of which is to be determined by the appended claims.
What I claim is:
1. An electric heating unit which comprises an elongated tubular sheath containing compacted electrical insulating material with a heating resistance embedded therein, the said sheath being provided at a place spaced from the sheath ends with an annular shoulder which extends around the sheath and projects abruptly outward therefrom and comprises an intermediate portion of the length of the sheath compressed lengthwise to a reduced axial length and distended circumferentially to an increased circumferential length imparting the said annular projecting shoulder form thereto, the insulation in the sheath adjacent the shoulder being compacted to a higher density than the density initially present.
2. An electric heating unit in accordance with claim 1 in which the lengthwise compressed circumferentially distended intermediate portion of the sheath contains a mass of electrical insulating material compacted in conformity to the interior surface of said intermediate portion.
3. An electric heating unit in accordance with claim 1 in which the annular shoulder is hollow and has the peripheral portion of a mass of electrical insulation compacted therein.
4. An electric heating unit in accordance with claim 1 in which the lengthwise compressed circumferentially distended intermediate portion of the sheath contains a localized mass of electrical insulation which is composed at least partly of a plastic sealing material and peripherally compacted in conformity to the interior surface of said intermediate portion.
5. An electric heating unit in accordance with claim 1 in which the annular shoulder is near one end of the sheath and the lengthwise compressed circumferentially distended portion of the sheath contains a localized mass of electrical insulating material locally compacted to high density and confonned peripherally to the interior surface of said portion of the sheath.
6. An electric heating unit in accordance with claim 1 wherein the tubular sheath is encircled by a holder at one side of the annular shoulder and the annular shoulder is engageable sidewise against the holder to limit endwise movement of the sheath in the holder.
7. The method of providing a tubular sheathed embedded resistor electric heater with an annular shoulder spaced from the ends of and projecting abruptly outward from the tubular sheath of the heater, said method comprising the steps of first installing electrical insulation compactly in the tubular sheath and thereafter axially compressing locally to axially shorten circumferentially enlarged annular shoulder shape a selected portion of the length of the tubular sheath which is spaced from the sheath ends and has electrical insulation already compactly installed therein, while at the same time axially compressing the insulation adjacent said selected portion to a density greater than that initially present.
8. The method of claim 7 wherein the electrical insulation already compactly installed in the said selected portion of the length of the tubular sheath is compacted to increased density with the axial compressing of said selected portion to axially shorten circumferentially enlarged annular shoulder shape.
9. The method of claim 7 wherein the electrical insulation already compactly installed in the said selected portion of the length of the tubular sheath is axially shortened and circumferentially enlarged and compacted to increased density with the axial compressing of said selected portion to axially shorten circumferentially enlarged annular shoulder shape.
10. The method of claim 7 wherein the portions of the tubular sheath at the opposite ends of the said selected portion of the length thereof are gripped and forced toward one another to compress said selected portion axially to the axially shortened circumferentially enlarged annular shoulder shape.
11. The method of claim 7 wherein the electrical insulation in the said selected portion of the length of the tubular sheath is a plug composed at least partly of a plastic material.
12. The method of claim 7 wherein the electrical insulation in the said selected portion of the length of the tubular sheath is a plug composed at least partly of a plastic material and is interposed and compacted between other electrical insulating material.
13. The method of claim 7 wherein the insulating material is circumferentially enlarged and conformed to the shape of the shoulder.
References Cited in the file of this patent UNITED STATES PATENTS 1,359,400 Lightfoot Nov. 16, 1920 1,817,854 Sorensen Aug. 4, 1931 1,928,910 Riemenschneider Oct. 3, 1933 2,659,795 Boggs Nov. 17, 1953 2,683,928 Carson July 20, 1954 2,734,121 Dicombe Feb. 7, 1956 2,735,389 Wurzburger Feb. 21, 1956 2,749,528 Albrecht June 5, 1956 2,766,513 Huet Oct. 16, 1956 FOREIGN PATENTS 546,024 Great Britain June 24, 1942
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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3036368A (en) * 1959-07-28 1962-05-29 Gen Electric End terminal for sheathed tubular heater and method of manufacture
US3052789A (en) * 1959-09-17 1962-09-04 Continental Can Co Radiant heater and method of shielding the same
US3067397A (en) * 1959-07-28 1962-12-04 Gen Electric End terminal for sheathed tubular heater
US4272752A (en) * 1979-07-30 1981-06-09 Gould Inc. Electric fuse including two different fillers

Citations (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1359400A (en) * 1920-06-22 1920-11-16 Cutler Hammer Mfg Co Electric heater
US1817854A (en) * 1929-06-11 1931-08-04 Sorensen John Process of producing coupling flanges
US1928910A (en) * 1930-12-31 1933-10-03 Midland Steel Prod Co Method of forming flanged articles
GB546024A (en) * 1939-12-29 1942-06-24 Westinghouse Electric Int Co Improvements in or relating to electric resistance heating units
US2659795A (en) * 1951-11-01 1953-11-17 Wiegand Co Edwin L Sheathed resistor electric heater
US2683928A (en) * 1950-09-12 1954-07-20 Gen Motors Corp Method of corrugating tubing
US2734121A (en) * 1956-02-07 dicome
US2735389A (en) * 1956-02-21 D wurzburger
US2749528A (en) * 1953-07-01 1956-06-05 Gen Electric Welded fluorescent lamp base pins
US2766513A (en) * 1938-07-19 1956-10-16 Comb Eugineering Inc Method of fabricating a tubular element

Patent Citations (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2734121A (en) * 1956-02-07 dicome
US2735389A (en) * 1956-02-21 D wurzburger
US1359400A (en) * 1920-06-22 1920-11-16 Cutler Hammer Mfg Co Electric heater
US1817854A (en) * 1929-06-11 1931-08-04 Sorensen John Process of producing coupling flanges
US1928910A (en) * 1930-12-31 1933-10-03 Midland Steel Prod Co Method of forming flanged articles
US2766513A (en) * 1938-07-19 1956-10-16 Comb Eugineering Inc Method of fabricating a tubular element
GB546024A (en) * 1939-12-29 1942-06-24 Westinghouse Electric Int Co Improvements in or relating to electric resistance heating units
US2683928A (en) * 1950-09-12 1954-07-20 Gen Motors Corp Method of corrugating tubing
US2659795A (en) * 1951-11-01 1953-11-17 Wiegand Co Edwin L Sheathed resistor electric heater
US2749528A (en) * 1953-07-01 1956-06-05 Gen Electric Welded fluorescent lamp base pins

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3036368A (en) * 1959-07-28 1962-05-29 Gen Electric End terminal for sheathed tubular heater and method of manufacture
US3067397A (en) * 1959-07-28 1962-12-04 Gen Electric End terminal for sheathed tubular heater
US3052789A (en) * 1959-09-17 1962-09-04 Continental Can Co Radiant heater and method of shielding the same
US4272752A (en) * 1979-07-30 1981-06-09 Gould Inc. Electric fuse including two different fillers

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