US2319573A - Apparatus for loading sheath wire heating units - Google Patents

Apparatus for loading sheath wire heating units Download PDF

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Publication number
US2319573A
US2319573A US346593A US34659340A US2319573A US 2319573 A US2319573 A US 2319573A US 346593 A US346593 A US 346593A US 34659340 A US34659340 A US 34659340A US 2319573 A US2319573 A US 2319573A
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Prior art keywords
sheath
insulating material
head
sheaths
plate
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US346593A
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Charles C Abbott
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General Electric Co
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General Electric Co
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Priority to BE448184D priority Critical patent/BE448184A/xx
Application filed by General Electric Co filed Critical General Electric Co
Priority to US346593A priority patent/US2319573A/en
Priority to FR873971D priority patent/FR873971A/fr
Priority to GB9196/41A priority patent/GB545074A/en
Application granted granted Critical
Publication of US2319573A publication Critical patent/US2319573A/en
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    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05BELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
    • H05B3/00Ohmic-resistance heating
    • H05B3/40Heating 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
    • H05B3/52Apparatus or processes for filling or compressing insulating material in tubes
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01BCABLES; CONDUCTORS; INSULATORS; SELECTION OF MATERIALS FOR THEIR CONDUCTIVE, INSULATING OR DIELECTRIC PROPERTIES
    • H01B7/00Insulated conductors or cables characterised by their form
    • H01B7/16Rigid-tube cables

Definitions

  • This invention relates to electric heating units, more particularly to electric heating units of the sheathed type, and it has for its object the provision of improved apparatus for loading heating units of this character with a suitable insulating medium.
  • This invention has particular application to electric heating units wherein a resistance conductor is encased -by a sheath and is embedded in and held in spaced relation with the sheath by means of an electrically insulating, heat refractory and conducting material, such as powdered magnesium oxide.
  • an electrically insulating, heat refractory and conducting material such as powdered magnesium oxide.
  • This invention contemplates the provision of improved apparatus for loading a heating unit of this type with its insulating material so as to embed and hold the resistance conductor in spaced relation with reference to the sheath in a simple, reliable and efcient manner.
  • the sheath with theresistance element and its terminals assembled with it is placed in an upright position.
  • the insulating material is fed into the upper end of the sheath.
  • the sheath is rotated continuously as the insulating material is fed in, and as the sheath is being lled a series of impacting blows are imparted laterally to the sheath to settle the insulating material.
  • a series of impacting blows are imparted laterally to the sheath to settle the insulating material.
  • Fig. 1 is a fragmentary vertical front elevation of apparatus for loading sheathed heating units arranged in accordance with this invention
  • Fig. 2 is a frag- -mentary side elevation of the loading apparatus shown in Fig. 1
  • Fig. 3 is a top plan view of the loading apparatus shown in Figs. l and 2
  • Fig. 4 is an enlarged fragmentary top plan view of av portion of the apparatus shown in Figs. 1-3 inclusive
  • Fig. 1 is a fragmentary vertical front elevation of apparatus for loading sheathed heating units arranged in accordance with this invention
  • Fig. 2 is a frag- -mentary side elevation of the loading apparatus shown in Fig. 1
  • Fig. 3 is a top plan view of the loading apparatus shown in Figs. l and 2
  • Fig. 4 is an enlarged fragmentary top plan view of av portion of the apparatus shown in Figs. 1-3 inclusive
  • Fig. 1 is a fragmentary vertical front elevation of apparatus for loading shea
  • FIG. 5 is an enlarged fragmentary sectional view taken through the line 5-5 of Fig. 1 and looking in the direction of the arrows;
  • Fig. 6 is an enlarged fragmentary View similar to Fig. 5 but showing certain of the elements in different operative positions;
  • Fig. 7 is an enlarged sectional View taken through the line l--l of Fig. 4 and looking in the direction of the arrows;
  • Fig. 8 is an enlarged sectional view taken through the line 8-8 of Fig. 4 and looking in the direction of the arrows;
  • Fig. 9 is an enlarged front elevation of a portion of the loading apparatus shown in Fig. 1, parts being shown in section so as to illustrate certain details of construction;
  • Fig. 9 is an enlarged front elevation of a portion of the loading apparatus shown in Fig. 1, parts being shown in section so as to illustrate certain details of construction;
  • Fig. 9 is an enlarged front elevation of a portion of the loading apparatus shown in Fig. 1, parts being shown in section so as to illustrate certain
  • Fig. 10 is an enlarged fragmentary elevation, partly in section, of a sheathed electric heating unit showing the various elements of the unit in assembled relation just prior to the loading operation;
  • Fig. 11 is a view of the end of the assembly of Fig. 10, the view being taken from above;
  • Fig. 12 is a sectional View of the lower end of the sheath, as viewed in Fig. 10, prior to certain processing operations; and
  • Fig. 13 is-an elevation, partly in section, of a nished electric heating unit of the type to which this invention is particularly applicable.
  • this invention has been illustrated in one form in connection with apparatus for loading electric heating units of the sheathed type, such as described and claimed in United States Patent No. 1,367,341, referred to above.
  • a heating unit of this type has been illustrated.
  • the heating unit comprises a helical resistance conductor I0 encased in a metallic sheath il.
  • Suitable terminals i2 and I3 are mechanically and electrically connected to the ends of the resistance element lli.
  • the resistance element is threaded on the terminals as shown and as fully described in my United States Patent No. 1,494,938, granted May 30, 1924.
  • the resistance element i0 is embedded in and is held in spaced relation with reference to the sheath I I by a suitable powdered heat refractory and conducting, electrically insulating material I4, such as powdered magnesium oxide.
  • the magnesium oxide functions to hold the coiled resistance conductor I so that its axis is substantially-in the longitudinal center line of the sheath, and it further functions to conduct heat from the resistance element to the sheath.
  • the inner ends of the terminals I2 and I3, as shown, are also ernbedded in the insulating material I4, and are insulated from the sheath II and held in spaced' vided with anges I8a which are bolted to the plates I6 and I1 respectively.
  • the apparatus will load a plurality of sheaths at the same time, but it is understood that the machine is equally applicable to a machine wherein only one sheath is loaded at a time.
  • each sheath Prior to insertion in the machine for loading, each sheath is treated in the following manner:
  • the resistance conductor I0 which is assembled with its terminals I2 and I3, is mounted in suitable cup-shaped washers I9 and located in the ends of the sheath which function to hold the conductor and terminals in their central positions in the sheath.
  • the lower cup-shaped washer 20 is provided with a centrally arranged aperture 2l through which the lower terminal I3 is inserted
  • the lower terminal I3 is provided with an enlarged head 22 which prevents the terminal from passing inwardly through the washer.
  • the washer is further provided with an outwardlyextending flange 23 which engages the lower end of the sheath, as shown in Fig. 12.
  • the upper cup-shaped washer I9 as shown in Figs. 10 and 1l, is provided with a transversely-arranged depressed bottom section 24 which at the center is provided with an aperture 25 through which the terminal I2 is directed.
  • the terminal I2 is provided with an enlarged head 26 which rests in the depressed section 24 so as to prevent the terminal from passing through the aperture.
  • the cup washer I9 in its bottom wall is further provided with relatively large openings 21 which merge into the centrally arranged opening 25 as clearly shown in Figs. 10 and 11.
  • This washer also is provided with an outwardly extending flange 28 which engages the upper end of the sheath. as shown in Fig. 10.
  • the lower terminal i3 will be provided with its flattened head 22, then this terminal will be assembled vwith its washer 20, and then the terminal is conassembly of the resistance conductor, terminals and cup 20 will be inserted through the sheath so that the lower cup bears against the lower end of the sheath, as shown in Fig. l2.
  • the end of the upper terminal I2 is withdrawn from the sheath for assembly with its cup I9, which then is inserted in the sheath so that its flange 28 bears against the upper end of the sheath, as shown in Fig. l0.
  • the head 26 of the terminal will be inserted through the openings 21, and then the cup turned 45 so that the head can be received in the depressed section 24.
  • the sheath is crimped at the lower end, as shown in Fig. 10, so as to provide inwardly offset sections 29 at this end' of the sheath. These sections 29 bend the walls of the lower cup inwardly, as shown, and thereby rmly anchor the cup to the sheath.
  • the assembly is now ready for the loading process.
  • the assembly is supported in a vertical position in the framework I5.
  • the framework is provided -with a series of rotatably mounted heads 30, one for each of the sheaths.
  • the supporting head 30 is shown more clearly in Fig. 7.
  • the supporting head 30 is provided with an elongated shaft 3I which is journaled in suitable ball bearings 32 which rotatably support the head in a transverse beam 33.
  • the bearings 32 support the head 30 for rotation in the beam 33, but they are also arranged to support the head in a vertical position, that is, they further function to prevent the head from moving vertically with reference to the beam.
  • the beam 33 is rigidly secured to the top plate I1 by any suitable means such as screw fastening devices 34 (Figs. 4 and 8).
  • the head 30- is provided in its lower end with a cylindrical recess or socket 35 in which a suitable sleeve 36 is inserted.
  • a suitable sleeve 36 is secured in the socket 35 by means of a set-screw 31.
  • the sleeve 36 is provided with a centrallyarranged socket 38 which receives the upper end of the sheath II, as clearly shown in Fig. 7.
  • An arcuate section of the sleve 36 is cut away through an angle of about; and inserted in this arcuate section is an arcuate clamping plate 39 which is arranged to be moved inwardly tightly against the sheath to hold it in the sleeve by means of a set-screw 40.
  • the plate 39 is not quite as long as the slot so that its lower end is spaced slightly above the lower end of the sleeve 36. This provides a ledge on the back of the sleeve which assists the operator in inserting the sheath into the sleeve.
  • the set-screw 40 is threaded in a circular plate 4I which is screwed into a tapped aperture provided for it in the head. The plate 4I may be replaced when the .threads become worn as they do at times due to the action of the dust of the magnesium oxide insulation.
  • the plate 4I is further secured to the head by means of screw 42 which has its headv countersunk into the plate,
  • the sheath II extends downwardly through the framework I from the supporting head 30 and at intervals along the length of the sheath, it is further secured in its proper vertical position in the framework.
  • a series of vertically spaced transverse beams 43 are secured to the front tubular columns I8.
  • the ends of the beams 43 are provided with arcuate-shaped recesses 44 which are tted to the outer rear surfaces of the front tubular columns I8.
  • These ends of the beams are rigidly clamped to these columns by means of hairpin shaped clamping bars 45.
  • Secured to the forward vertical face of each beam is an elongated, channel-shaped plate 46, clearly shown in Figs. 1, 5, 6, 7 and 8.
  • each centering plate 41 is provided with arcuateshaped recesses 48 for receiving the sheaths, as shown in Fig. 5.
  • the recesses or slots 48 are adapted to be closed by means of a closure plate 49, which when in its closed position, shown in Fig. 1 at the left, and in Fig. 5, holds the sheaths in their vertically spaced-apart positions.
  • the closure plates may be swung from these closed positions to open positions, shown' at the right of Fig. l, and in dotted lines in Fig. 9, so as to open the slots to permit the removal of the sheaths.
  • the channel plate 46, the centering plates il and the closure plates IE6 are secured together n and to their associated transverse beam 63 by means of screws 50 which are directed through apertures provided for them in the plates 416, 61 and 69 and which are received in tapped holes provided for them in the beam 63.
  • a collar or bushing 5I is interposed between the head of each of the screws and the front surface of the closure plate 69 and is so proportioned as to provide for relatively free rotary movement of the associated closure plate 48 on the screw.
  • Each closure plate 69 is provided with a pin 52 which is arranged to engage the upper surface of the associated centering plate 61 to hold the closure plate i9 in its closed position, as shown in Fig. 9, and also to engage this upper surface to h old the plate in its open position, as shown in dotted lines in this figure.
  • the plate 49 as shown in Fig. 9, is positioned in eccentric relation on the screw 56 so that it will hold the pin 52 by gravity in each of these positions against the upper surface of the centering plate 61.
  • Very long sheaths are to be filled, such as the four sheaths on the left-hand side of Fig. 1, they are caused to extend downwardly through the oor plate I6 and the iloor, the plate I6 being provided with an enlarged aperture 53 for this purpose, and the floor, of course, being provided with a similar aperture.
  • the lower ends of these sheaths will be mounted in suitable centering bushings 5d.
  • the centering bushings 54 are provided with centrally arranged centering apertures 55 for receiving the lower -ends of the sheaths, as shown in Fig. 9.
  • the centering bushings 56 are mounted in a transverse beam 55.
  • the ends of the beam 56 are secured to upright cylindrical tubes 51 which are directed upwardly through the front tubular standards I8, as clearly shown in Figs. 1 and 5. These members 51 function to guide the beam 56 so that it can move vertically with reference to the floor plate I6. 'I'he transverse beam 56 is secured in its proper position with relation to the oor plate by means of chains 58, the links oi which are arranged to be directed over pins 59 provided for them on the ends of the beam 58 and similar pins 66 provided for them on the floor plate I6. It will be understood that the position of the beam 56 and hence of the centering bushings 54 may thereby be adjusted. This will take care of sheaths of various lengths. The shorter sheaths, shown in the center of the apparatus in Fig. 1,
  • the various supporting headsn 30 are arranged to be rotated as the sheaths are being filled so that the sheaths themselves are continuously rotated as they are being filled by means of a suitable electric motor 6I which is mounted upon the upper supporting plate I1-at the left side of the plate, as viewed in Fig. 1.
  • This electric motor drives a suitable worn 62 by means of a chain drive 63.
  • the worm 62 is mounted on a transverse shaft, as clearly shown in Figs. 2 and 3, and it drives a worm wheel 66 mounted on a vertical shaft 65.
  • the vertical shaft 65 drives a gear member 66, shown more clearly in Fig. 8.
  • the gear 66 is provided with a cylindrical head 61 having a socket 61a which receives the lower end of the shaft 65 and to which the head is secured so as to rotate with it by a key 68.
  • the head 61 is secured to the shaft 65 to prevent longitudinal movement of the gear 66 with reference to the shaft by means of a set-screw 69.
  • the gear 66 meshes with a gear 18 which is keyed to a vertically positioned shaft 1I .that is mounted in bearings 12 and 13.
  • the bearing 13 is supported on the upper main plate I1, while the bearing 12 is mounted in a plate 16 which in turn is mounted on a plate 15.
  • the plate 'I5 is secured in vertically spaced relation to the plate l1 by means of bolts 16. It will be understood that suitable bushings or collars 11 (Figs. l and 2) surround the bolt 16 so as to support the plate 15 in spaced relation with reference to the plate Il.
  • a gear 18 which meshes with a gear 18 that is keyed to a vertically positioned shaft 88.
  • the shaft 86 is mounted in bearings 8
  • is mounted in a bracket 83, which as shown in Fig. 1 has a Z-shape, and which as shown in this ligure is mounted upon the plate I1; it is secured to the plate I1 in any suitable manner, as by bolts 84 (Fig. 4).
  • the lower bearing 82 is mounted in the transverse bearm 33.
  • each gear 86 functions to drive one of the rotary supporting heads 30.
  • each gear 86 is mounted upon the shaft 6I of the associated head 38 and is secured to it by means of suitable pins 81.
  • the series of gears 66 preferably are covered by means of a dustproof casing 68 supported by the plate I1 and the transverse beam 33.
  • Suitable means are provided for feeding the Vpowdered insxuanng material la to the sheaths as they are being rotated by the motor 6
  • a suitable hopper 89 there is mounted on each of the supporting heads a suitable hopper 89.
  • Each hopper 89 comprises a suitable vertically positioned cylindrical bin 99 which in its bottom is provided with a cylindrical funnel or conicalshaped feed device 9
  • the bln 99 is secured to the funnel-shaped member 9
  • the bin 99 is provided with a vertically arranged elongated opening 95 through which the insulating material is fed to the bin.
  • is provided with a centrally arranged opening 96 in which is tted a suitable tubular member 91.
  • This member 91 is secured to the member 9
  • the discharge tube 91 empties into a centrally arranged opening 99 provided in the shaft 3
  • the opening 99 flares outwardly, that is, enlarges gradually as it approaches the head 39, as clearly shown in Fig. 7.
  • This passageway 99 in turn empties into a reduced passageway
  • 99 all are coincident with each other and with the axis of rotation of the head 39.
  • Suitable means are provided for applying to each sheath a plurality of impacting blows as the sheath is being filled with the insulating material.
  • a series of blows will be applied to the sheath at spaced points along its length.
  • suitable vibrating hammers I9l are provided spaced at intervals along the length of the sheath.
  • a set of six hammers is provided for each of the long sheaths at the left.
  • the hammers will be arranged in banks so as to apply the impacting blows at substantially the same points of each sheath.
  • the hammers are formed in the shape of a widened U, and they are so arranged and positioned in the apparatus that the legs of the U straddle the sheath with which the hammers are associated.
  • the hammers are supported on the transverse beams 43.
  • each hammer is rigidly secured to a vertically positioned shaft
  • 92 r is received in a bushing
  • Each hammer is arranged to be rapidly oscillated so as to cause its legs to alternately strike the sheath by suitable means such as an over-center spring
  • 96 at one end is secured on a stud
  • 98 is arranged to oscillate on a pin
  • the opposite end of each spring is secured to a stud
  • 98 and are provided with longitudinally arranged bores which receive the pins
  • are rigidly secured to a plate
  • 4 is mounted upon the associated beam 43 by means of a pair of forked links
  • 5, as shown, are pivotally connected to the beam 43 by means' of pins H6, and to the plate
  • 3 is given a rocking motion back and forth to move between its solid line position of Fig. 6 and its dotted line position of this figure so as to move the caps I, and hence the ends of the springs
  • the path of motion of each spring is such that the end of the spring will be moved back and forth across the center of movement of its associated hammer, which of course is the center of the hammers pin
  • 1 are provided, one of these eccentric devices being provided for each bank of hammers
  • 1 are driven from the motor 6
  • 8 is supported in a vertical position in the frame I5 by means of a plurality of bearings
  • 8 is received in a bore provided for it in the gear 66 and it is rigidly secured to rotate with the gear byl means of a suitable key
  • 1 comprises a base or collar l2
  • is provided with an upright cylindrical section
  • 23 may be integrally formed into one piece.
  • 23 are eccentrically mounted upon the shaft H8.
  • 24 is closed at the top by means of a.
  • 26 which is rigidly secured to the section
  • 28 which extends downwardly so as to hold the pin bearing
  • 24 carries on its outer wall a pair of verticalLv positioned lugs
  • 30 is rigidly secured to the associated plate III in any suitable manner as by welding.
  • the assembly shown in Fig. 10 will be made in the manner previously described.
  • the upper ends of the sheaths in which the cups I9 are mounted will then be inserted in the sleeves 8B and the set-screws 40 will be screwed inwardly to cause the plates 39 to clamp the sheaths.
  • the closure plates 49 of course will be in their open positions, as shown in Figs. 8 and 9 and also at the right-hand side of Fig. 1. Then these closure plates will be moved to close their associated slots d8. If the sheaths are very long so as to extend downwardly through the floor plate I6, the lower ends of these members will be fitted into the centering bushings d. This may be accomplished by moving the beam 5t upwardly to its proper position and attaching it to the floor plate i6 by the chains E8.
  • the motor ti will be started. This operation will continuously rotate the sheaths and also the hoppers 89 that are mounted on their rotating supporting members 3i! so that the insulating material will feed into the sheaths where it is retained at the bottom by the lower cupped-washers 2U. At the same time, the motor will cause the operation of the hammers iti to apply to the sheaths a series of impacting blows.
  • the insulating material Will be suilciently jarred or vibrated to cause it to flow through the tube 9% at a substantially even rate of now.
  • each hammer will be operated at around 200 cycles per minute. This means, of course, that each hammer will strike the sheath about 400 times per minute, and as there are a plurality of hammers spaced at intervals along the length of each sheath this number of blows Will be multiplied by the number of hammers provided.
  • the sheaths After the sheaths have been withdrawn they may be reduced in diameter in any suitable way as by swaging so as to reduce the diameter of the sheaths and to increase their length to thereby highly compact the insulating material i4 into a hard dense mass.
  • the upper ends of the sheaths Prior to swaging, the upper ends of the sheaths are crimped in the same manner as the lower so as to clamp the upper washers i9 to the sheaths and then the openings 21 in the upper Washers i9 are sealed in any suitable manner, as by a suitable varnish.
  • the ends of the sheath may be severed so as to remove the sections that are clamped to the cups i9 and 2t and so as to remove the headed sections 22 and 26 provided on the terminals.
  • Apparatus for loading granular insulating material into the sheath of a sheath wire heating unit that is provided with a sheath, and a resistance element Within the sheath located in the central longitudinal axis thereof and embedded in and held in its spaced relation with the sheath when the insulating material is loaded into the sheath, comprising asupply reservoir for said insulating material, means rotatably supporting said sheath in an upright position so that it can be revolved on its longitudinal axis and also rotatably supporting said supply reservoir on said axis, said supply reservoir having a discharge opening in said axis communicating with the upper end of said sheath, and means for continuously rotating said reservoir and sheath while said insulating material is being fed into said sheath.
  • Apparatus for loading granular insulating material into the sheath ofa sheath wire heating unit that is provided with a sheath, and a resistance element within the sheath located in the central longitudinal axis thereof and embedded in and held in its spaced relation with the sheath when the insulating material is loaded into the sheath, comprising 'a head, means rotatably mounting said head, attaching means connecting one end of said sheath to said head to support said sheath from said head in a vertical position with said central longitudinal axis coincident with the axis of rotation of said head, a supply reservoir for said insulating material connected to said head so as to be rotated thereby, conduit means for conducting said insulating material from said reservoir to the upper end of said sheath and constructed and arranged to regulate the ow of the insulating material to said sheath, means for vibrating said sheath as it is being filled, and means for continuously rotating said head. reservoir and sheath while said insulating material is fed in and while said
  • Apparatus for loading granular insulating material into the sheath of a sheath wire heating unit that is provided with a sheath', and a resistance element within the sheath located in the central longitudinal' axis thereof and embedded in and held in its spaced relation with the sheath when the insulating material is loaded into the sheath, comprising means for supporting said sheath for rotation on a vertical axis coincident with the longitudinal central axis of said sheath, a reservoir for said insulating material, means for supporting said reservoir for rotation on an axis coincident with the longitudinal central axis of said sheath, said reservoir being provided with a conical-shaped bottom wall tapering downwardly to the center where a discharge opening of predetermined diameter is provided in said axis, means for conducting insulating material from said opening to the upper end of said sheath, and means for rotating said reservoir and sheath continuously as said sheath is being filled.
  • 4.'Apparatus for loading granular insulating material into the sheath of a sheath wire heating unit that is provided with a sheath, and a resistance element within the sheath located in the central longitudinal axis thereof and embedded in and held in its spaced relation withv the sheath when the insulating material is loaded into the sheath, comprising a head, means rotatably mounting said head, means on said head for gripping said sheath so that the sheath is suspended downwardly from the head in a vertical position for rotation' with its longitudinal axis coincident with the axis of rotation of said head.
  • a reservoir for said insulating material mounted on said head for rotation by the head having a .conical-shaped bottom wall tapering downwardly to a circular discharge opening of predetermined diameter located in said axis of rotation, said head having a passageway in said axis of rotation connecting said opening with the upper end of saidvsheath, means for rotating said head, reservoir and sheath, and means for imparting intermittent impacting blows to said sheath at points spaced at intervals along its length.
  • Apparatus for loading granular insulating material into the sheath of a sheath wire heating unit that is provided with a sheath, and a resistance element within the sheath located in the central longitudinal axis thereof and embedded in and held in its spaced relation withA the sheath whenthe insulating material is loaded into the sheath, comprising a head, means mounting said h ead for rotation on a Vertical 'passageway in said axis of rotation connecting said opening with the upper end of said sheath, means for rotating said head, reservoir and sheath, means for imparting intermittent impacting blows to said sheath at points spaced at intervals along its length, and means spaced at intervals along said sheath for holding it in its axis of rotation.
  • Apparatus for loading insulating material into the sheath of a sheath wire heating unit provided with a sheath, a resistance element within the sheath and granulated insulating material within the sheath embedding the resistance element comprising means for holding said sheath in an upright position, means for feeding said insulating material into the upper end of said sheath, a hammer having an arm arranged to strike said sheath, means pivotally mounting said hammer so that when it is alternately rotated in opposite directions said arm strikes said sheath and then moves away from it, an over-center spring having one end connected to said hammer, and means for reciprocating the other end of said spring between limiting positions so related to the axis of rotation of said hammer that the hammer is alternately rotated in said opposite direction when said end is reciprocatedl 7.
  • Apparatus for loading insulating material into the sheath of a sheath wire heating unit provided with a sheath, a resistance element within the sheath and granulated insulating material Within the sheath embedding the resistance element comprising means for holding said sheath in an upright position, means for feeding said insulating material into the upper end of said sheath, a hammer having a U shape, a pin pivotally mounting said hammer with its legs straddling ⁇ said sheathfor rotation on an axis substantially parallel with the axis of said sheath, a spring having one end attached to said hammer at a point between said pin and said sheath, and having its opposite end extending beyond said pin, a reciprocating member, means attaching the opposite end of said spring to said reciprocating member, and means for reciprocating said member while said insulating material flows into said sheath.
  • Apparatus for loading insulating material into the sheath of a sheath wire heating unit provided with a sheath, a resistance element within the sheath and granulated insulating material within the sheath embedding the resistance element comprising means for holding said l sheath in an upright position, means for feedingr said insulating material into the upper end of said sheath, means for rotating said sheath while said insulating material flows into said sheath, a hammer having an arm arranged to strike said sheath, means pivotally mounting said hammer so that when it is alternately rotated in opposite directions said arm strikes said sheath and thenl moves away from it, an over-center spring having one end connected to said hammer, and means for reciprocating the other end of said spring between limiting positions so related to the axis of rotation of said hammer that the hammer is alternately rotated in said yopposite direction when said end is reciprocated.
  • Apparatus for loading granulated insulating material into the sheath of a sheath-wire heating unit provided with a resistance element within the sheath and embedded Within said insulating material comprising a head, means mounting said head for rotation on a vertical axis, said head being provided with a longitudinal bore having its longitudinal axis in the axis of rotation' of said head, said bore being constructed and arranged to receive one end of said sheath, means for clamping said end to said head,
  • a reservoir for said insulating material mounted on said head for rotation by the head and having a conical-shaped bottom wall tapering downwardly to a circular discharge opening of predetermined diameter located in said axis of rotation, and said head having a longitudinal passageway in its axis of rotation leading from said opening to said bore, said longitudinal passageway having a gradually increasing diameter as it progresses from said opening to a point adjacent said bore where it is abruptly reduced to a relatively small diameter, and means for rotating said head, reservoir and sheath.

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  • Resistance Heating (AREA)
US346593A 1940-07-20 1940-07-20 Apparatus for loading sheath wire heating units Expired - Lifetime US2319573A (en)

Priority Applications (4)

Application Number Priority Date Filing Date Title
BE448184D BE448184A (enrdf_load_stackoverflow) 1940-07-20
US346593A US2319573A (en) 1940-07-20 1940-07-20 Apparatus for loading sheath wire heating units
FR873971D FR873971A (fr) 1940-07-20 1941-07-11 Perfectionnements aux appareils destinés à garnir de matière isolante les éléments chauffants
GB9196/41A GB545074A (en) 1940-07-20 1941-07-21 Improvements in apparatus for loading sheath wire electric heating units

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US346593A US2319573A (en) 1940-07-20 1940-07-20 Apparatus for loading sheath wire heating units

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US2319573A true US2319573A (en) 1943-05-18

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US (1) US2319573A (enrdf_load_stackoverflow)
BE (1) BE448184A (enrdf_load_stackoverflow)
FR (1) FR873971A (enrdf_load_stackoverflow)
GB (1) GB545074A (enrdf_load_stackoverflow)

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2718990A (en) * 1950-07-21 1955-09-27 Alsacienne Constr Meca Electrical cable manufacture
US2867955A (en) * 1955-06-07 1959-01-13 Wiegand Co Edwin L Filling apparatus
US2920430A (en) * 1958-05-12 1960-01-12 Gen Electric Apparatus for loading sheathed wire heating units
US2970415A (en) * 1958-12-10 1961-02-07 Wiegand Co Edwin L Electric heaters
CN105293100A (zh) * 2015-10-26 2016-02-03 扬中市三环电热科技有限公司 一种半自动加粉机

Families Citing this family (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105293099A (zh) * 2015-10-26 2016-02-03 扬中市三环电热科技有限公司 半自动加粉机用振动机构
CN105383717B (zh) * 2015-10-28 2017-11-24 湖州思创电热科技有限公司 一种灌粉机

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2718990A (en) * 1950-07-21 1955-09-27 Alsacienne Constr Meca Electrical cable manufacture
US2867955A (en) * 1955-06-07 1959-01-13 Wiegand Co Edwin L Filling apparatus
US2920430A (en) * 1958-05-12 1960-01-12 Gen Electric Apparatus for loading sheathed wire heating units
US2970415A (en) * 1958-12-10 1961-02-07 Wiegand Co Edwin L Electric heaters
CN105293100A (zh) * 2015-10-26 2016-02-03 扬中市三环电热科技有限公司 一种半自动加粉机

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Publication number Publication date
GB545074A (en) 1942-05-08
BE448184A (enrdf_load_stackoverflow)
FR873971A (fr) 1942-07-24

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