US1490089A - Air heater - Google Patents

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US1490089A
US1490089A US503734A US50373421A US1490089A US 1490089 A US1490089 A US 1490089A US 503734 A US503734 A US 503734A US 50373421 A US50373421 A US 50373421A US 1490089 A US1490089 A US 1490089A
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core
resistor
casing
convolutions
wings
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US503734A
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Lewis B Bridges
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AIRDRY Corp
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AIRDRY CORP
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24HFLUID HEATERS, e.g. WATER OR AIR HEATERS, HAVING HEAT-GENERATING MEANS, e.g. HEAT PUMPS, IN GENERAL
    • F24H3/00Air heaters
    • F24H3/02Air heaters with forced circulation
    • F24H3/04Air heaters with forced circulation the air being in direct contact with the heating medium, e.g. electric heating element
    • F24H3/0405Air heaters with forced circulation the air being in direct contact with the heating medium, e.g. electric heating element using electric energy supply, e.g. the heating medium being a resistive element; Heating by direct contact, i.e. with resistive elements, electrodes and fins being bonded together without additional element in-between
    • F24H3/0423Air heaters with forced circulation the air being in direct contact with the heating medium, e.g. electric heating element using electric energy supply, e.g. the heating medium being a resistive element; Heating by direct contact, i.e. with resistive elements, electrodes and fins being bonded together without additional element in-between hand-held air guns

Definitions

  • This invention relates to improvements in air heaters, and more particularly to electric air heating means.
  • the improved electric heating device is especially adapted for use in connection with sanitary drying apparatus in which the drying is effected by means of a blast of heated air, and is preferably mounted in the discharge nozzle of the fan blower or other air-supplying means.
  • the improved heating means is not limited in its application to the type of apparatus specified, but may be employed in fines, conduits and casings of various forms for heating air or gases.
  • the invention has for one of its objects to provide an inexpensive and effective electric heating means which will uniformly heat air flowin through a nozzle, conduit or casing.
  • a rther object of the invention is to provide a compact heating coil so constructed that a resistance wire of considerable length may be employed without interfering with the flow of air.
  • Fi tion a view of a fan blower of ordinary construction 'havin the improved air heating means mounte in the discharge nozzle thereof.
  • Fig; 2 a horizontal section on the line 2-2 of F ig. 1;
  • Figs. 3 and/1 are end elevations on an enlarged scale of the inner and outer ends
  • Fig. 5 a perspective view on an enlarged scale of the support or core upon which the resistance wire is wound;
  • re 1 is a fragmentary vertical secthe core showing a slightly modified form v of, resistor wound thereon.
  • 11 designates the fan or rotor chamber of a fan blower of ordinary construction and Y12 the discharge nozzle of the blower.
  • a ring 13 of insulating material is rigidly but detachably held by means of a screw 14 which also serves to hold a segmental block 15 of insulating material within the ring 13.
  • a pair of line terminals or slip contacts 16 are mounted on the fiat upper surface of block 15, each of said contacts “comprising a pair of superposed strips of spring metal held to block 15 by a pair of screws 17 and having their outer ends 16 projecting beyond the outer edge of the block and slightly spread apart to facilitate the insertion of one of the knife contacts or terminals 18 of the heating element therebetween.
  • pair of line wires 19 are connected with conclamped against the contacts by the heads fully described and of said screws. Wires 19 lead to' a suitable source of current, not shown.
  • the heating element or coil is removably mounted in the nozzle 12 and comprises generally a tubular insulating and protecting casing 20 having1 a core or support detachably secured rein upon which is wound the resistor or length of resistance wire.
  • the resistor core or support comprises two sheets of mica 21 and 22 each of which is cut away at opposite edges for substantially one-half its length and onefourththe width of the wider portion of the sheet.
  • the narrower portions 21 and 22 of the sheets of mica are slotted longitudinally from end to end midway the side edges of said portions asshown at 23 and 42, and the side edges of both the wide and narrow portions are parallel with the lonother at right angles so as to form a skeleton core having four radially extending blades, fins or wings each of which has a stepped outer edge.
  • the outer ends of the two halves of the slotted portion 21 of sheet 21 are rigidly held to the outer end of the wide portion of sheet 22 by angular metal braces 24 and rivets 25, while the ends of the narrow portion 22 of sheet 22 are held by rivets 26 to a rigid metal locking bar 27 which passes through a notch 43 in the outer end of the wide portionof sheet 21.
  • Braces 24 and bar 27 hold the sheets 21 and 22 against relative movement, and bar 27 also serves to hold the core against rotary movement relatively to the casing 20, said bar being formed with projections or lugs 28 at its opposite ends engaging in notches 29 in the outer end of the casing when the core is passed endwise into the casing. Lugs 28 also hold the core against endwise movement in one direction when the core is assembled in the casing, while ring 13 limits the extent of inward movement of the casing 20 in nozzle 12.
  • Contacts 18 consist of metal strips held by screws 32 to. the fiat upper face of a segmental block 30 of insulating material which is held Within the inner end of casing 20 by a screw 31. One end of each contact 18 projects beyond the outer edge of block 30 and is adapted to engage between the resilient blades 16 of one of the contacts 16, while the other end of each contact 18 is bent downwardly against the inner edge of block 30 as shown at 33 to prevent lateral swinging of the contacts.
  • One end of the resistor which consists of a length of resistance wire 37, is clamped against one of the contacts 18 by the head of one of the screws 32 and passes thence through an eyelet 34 in sheet 22 and eyelets 35 and 36 in sheet 21 to the-outer end of the core.
  • the wire 37 is then wound spirally around the core as shown from the outer to the inner end of the core where it passes up through an-eyelet 38 in sheet 22 and thence downwardly over the inner end of said sheet to the other contact 18 against which it is clamped by the head of the screw 32.
  • the core with the resistor wound there on may be removed from casing 20 by disconnecting the ends of the resistor wire from screws 32.
  • Casing 20 and the core are removablv held in the nozzle by a divided lm'h'illg' ring 39 adapted to be sprung into and out of a circumferential groove 40 in nozzle 12.
  • ring 39 is removed casing 20
  • the core, the resistor, and block 30 with contacts 18 thereon may be removed from the nozzle as a unit.
  • Casing 20, ring 13, and segmental blocks 15 and 30 are formed of rigid insulating material, such as vulcanized fiber.
  • the side edges of the mica sheets 21 and 22 are preferably provided with notches 41 in which the resistance wire 37 engages to maintain the several convolutions of the wire in properly spaced relation.
  • the convolutions of the resistance wire wound thereon are formed of the same length of wire and are of the same general diamond shape, but that the convolutions of wire on one half of the core are wide vertically and narrow horizontally while the convolutions on the other half are narrow vertically and wide horizontally.
  • This arrangement permits the use of a maximum length of resistance wire in a coil of given length and diameter, affords a highly effective distribution of the wire in the path of the air whereby the air is rapidly and uniformly heated, and avoids choking of the air' passage through the heating element and excessive concentration of heat at one point.
  • the core is so constructed that it cannot be laterally defiected or canted in the casing 20, the side edges of the wider portions of sheets21 and 22 having a long bearing or contact with the casing at four circumferentially spaced points.
  • hen contacts 18 are en gaged in contacts 16 they assist bar 27 in preventing rotation of the core.
  • Fig. 10 a slightly modified form of resistor is shown, the portions of the resistance wire 37 between the wings of the core being coiled in helical form, thus greatly increasing the length of wire in a heater of given diameter and length. It will be obvious that the relative widths and lengths of the two halves of the sheets may be varied and that each sheet may be formed with more than two stepped edges at each side if desired.
  • An electric heating coil comprising a conductor wound spirally in symmetrical convolutions elongated transversely of the axis of the coil, said convolutions being arranged in successive groups with the convolutions in each group in register and the different groups of convolutions stepped around the axis of the coil.
  • An electric heater comprising a tubular casing, a support extending longitudinally of the casing, and a resistor spirally wound on the support, said support having radial wings with stepped'side edges upon which the resistor is wound.
  • An electric heater comprising a cruciform support having Wings with stepped outer edges, the narrower portions of the two pairs of parallel wings being located at opposite ends of the support, and a resistor wound spirally around the support.
  • An electric heater comprising a pair of interlocked sheets of insulating material having stepped longitudinal edges, the edges of the two sheets being stepped in opposite directions, and a resistor wound spirally around the stepped edges of the interlocked sheets.
  • An electric heater comprising a cruciform core having its two pairs of parallel wings reduced in width for a portion of their length adjacent opposite ends of the core, and a resistance wire wound spirally around the core and supported by the longitudinal edges of the wings.
  • An electric heating coil comprising a conductor wound spirally in a plurality of series of diamond-shaped convolutions, all of said convolutions being of the same size and symmetrical with respect to the axis of the coil, and the difi'erent series of convolutions being staggered with respect to each other around the axis of the coil.
  • An electric heater comprising a core having four radially extending wings with stepped outeredges, the narrower portions of one pair of parallel wings being located at one end of the core and the narrower portions of the other pair of parallel wings being located at the opposite end of the core, a resistor wound spirally around said core and supported by the outer edges of the wings, and a casing, surrounding the core and resistor and engaged along its inner side by the wider portions of the four wings of the core.
  • An electric heater comprising four resistor supports arranged radially around a common axis, the two pairs of oppositely disposed supports having their outer resistor supporting edges stepped in opposite directions, a spirally wound resistor supported by the stepped edges of said supports, said stepped edges of the supports being notched to receive the resistor, and a tubuports, said stepped edges of the supports being notched to receive the resistor, a tubular casing enclosing said supports and resistor and engaged at four clrcumferentially spaced points by said supports, and means for holding the supports against rotation in the casing.
  • An electric heater comprising a core having four radially extending wings with stepped outer edges, the narrower portions of one pair of parallel wings being located at one end of the core and the narrower portions of the other pair of parallel wings being located at the opposite end of the core, a resistor wound spirally around said core and supported by the outer edges of the wings, a casing surrounding the core and resistor and engaged along its inner side by the wider portions of the four wings of the core, and means connecting the core and casing for holding the core against rotation in the casing.
  • An electric heater comprising a resistor wound spirally in a plurality of series of symmetrical convolutions non-circular in end view, the convolutions of each series being in register and the different series of convolutions being stepped around a com- -mon axis, and means for supporting said resistor.
  • An electric heater comprising a skeleton core, and a resistor wound spirally on said core in two series of convolutions, said convolutions being diamond-shaped in end View and the two series of convolutions being staggered around a common axis.

Description

7 April 15, 1924. 1,490,089
L. B. BRIDGES AIR HEATER Filed Sept.- 28 1921 2 Sheets-Sheet 1 14 (ltfozwmfd April 15, 1924; 1,490,089
L. B. BRIDGES AIR HEATER Filed Sept. 28. 1921 2 Sheets-Sheet 2 $4 GHQ-Lump Patented Apr. 15, 1924.
umrso STATES PATENT OFFICE.
LEWIS B. BRIDGES, OF BROOKLYN, NEW YORK, ASSIGNOR '10 AIRDRY CORPORATION, 01' GBDTON, NEW YORK, A CORPORATION OF NEW YORK.
AIR HEATER.
Application filed September 28, 1921. Serial No. 503,734.
. To all whom it may camera:
Be it known that I, LEWIS B. BRIDGES, a citizen of the United States,'and resident of the borou h of Brooklyn, county of Kings, city an State of New York, have invented certain new and useful Improvements in Air Heaters, of which the following is a specification.
This invention relates to improvements in air heaters, and more particularly to electric air heating means. The improved electric heating device is especially adapted for use in connection with sanitary drying apparatus in which the drying is effected by means of a blast of heated air, and is preferably mounted in the discharge nozzle of the fan blower or other air-supplying means. It will be obvious, however, that the improved heating means is not limited in its application to the type of apparatus specified, but may be employed in fines, conduits and casings of various forms for heating air or gases.
The invention has for one of its objects to provide an inexpensive and effective electric heating means which will uniformly heat air flowin through a nozzle, conduit or casing. A rther object of the invention is to provide a compact heating coil so constructed that a resistance wire of considerable length may be employed without interfering with the flow of air.
To the above and other ends, which will hereinafter appear, the "invention consists in the features of construction, arrangements of parts, and combinations. of evices hereinafter more particularly pointed out in the appended claims.
In the accompanying drawings, wherein the referred embodiment of the invention is i ustrated,
Fi tiona view of a fan blower of ordinary construction 'havin the improved air heating means mounte in the discharge nozzle thereof.
Fig; 2 a horizontal section on the line 2-2 of F ig. 1;
Figs. 3 and/1 are end elevations on an enlarged scale of the inner and outer ends,
respectively, of the heating coil;
Fig. 5 a perspective view on an enlarged scale of the support or core upon which the resistance wire is wound;
re 1 is a fragmentary vertical secthe core showing a slightly modified form v of, resistor wound thereon.
Referring to the various parts by numerals, 11 designates the fan or rotor chamber of a fan blower of ordinary construction and Y12 the discharge nozzle of the blower. At the inner end of the nozzle 12 a ring 13 of insulating material is rigidly but detachably held by means of a screw 14 which also serves to hold a segmental block 15 of insulating material within the ring 13. A pair of line terminals or slip contacts 16 are mounted on the fiat upper surface of block 15, each of said contacts "comprising a pair of superposed strips of spring metal held to block 15 by a pair of screws 17 and having their outer ends 16 projecting beyond the outer edge of the block and slightly spread apart to facilitate the insertion of one of the knife contacts or terminals 18 of the heating element therebetween. A
pair of line wires 19 are connected with conclamped against the contacts by the heads fully described and of said screws. Wires 19 lead to' a suitable source of current, not shown.
The heating element or coil is removably mounted in the nozzle 12 and comprises generally a tubular insulating and protecting casing 20 having1 a core or support detachably secured rein upon which is wound the resistor or length of resistance wire. The resistor core or support comprises two sheets of mica 21 and 22 each of which is cut away at opposite edges for substantially one-half its length and onefourththe width of the wider portion of the sheet. The narrower portions 21 and 22 of the sheets of mica are slotted longitudinally from end to end midway the side edges of said portions asshown at 23 and 42, and the side edges of both the wide and narrow portions are parallel with the lonother at right angles so as to form a skeleton core having four radially extending blades, fins or wings each of which has a stepped outer edge. The outer ends of the two halves of the slotted portion 21 of sheet 21 are rigidly held to the outer end of the wide portion of sheet 22 by angular metal braces 24 and rivets 25, while the ends of the narrow portion 22 of sheet 22 are held by rivets 26 to a rigid metal locking bar 27 which passes through a notch 43 in the outer end of the wide portionof sheet 21. Braces 24 and bar 27 hold the sheets 21 and 22 against relative movement, and bar 27 also serves to hold the core against rotary movement relatively to the casing 20, said bar being formed with projections or lugs 28 at its opposite ends engaging in notches 29 in the outer end of the casing when the core is passed endwise into the casing. Lugs 28 also hold the core against endwise movement in one direction when the core is assembled in the casing, while ring 13 limits the extent of inward movement of the casing 20 in nozzle 12.
Contacts 18 consist of metal strips held by screws 32 to. the fiat upper face of a segmental block 30 of insulating material which is held Within the inner end of casing 20 by a screw 31. One end of each contact 18 projects beyond the outer edge of block 30 and is adapted to engage between the resilient blades 16 of one of the contacts 16, while the other end of each contact 18 is bent downwardly against the inner edge of block 30 as shown at 33 to prevent lateral swinging of the contacts. One end of the resistor, which consists of a length of resistance wire 37, is clamped against one of the contacts 18 by the head of one of the screws 32 and passes thence through an eyelet 34 in sheet 22 and eyelets 35 and 36 in sheet 21 to the-outer end of the core. The wire 37 is then wound spirally around the core as shown from the outer to the inner end of the core where it passes up through an-eyelet 38 in sheet 22 and thence downwardly over the inner end of said sheet to the other contact 18 against which it is clamped by the head of the screw 32.
The core with the resistor wound there on may be removed from casing 20 by disconnecting the ends of the resistor wire from screws 32. Casing 20 and the core are removablv held in the nozzle by a divided lm'h'illg' ring 39 adapted to be sprung into and out of a circumferential groove 40 in nozzle 12. When ring 39 is removed casing 20, the core, the resistor, and block 30 with contacts 18 thereon, may be removed from the nozzle as a unit. Casing 20, ring 13, and segmental blocks 15 and 30 are formed of rigid insulating material, such as vulcanized fiber. The side edges of the mica sheets 21 and 22 are preferably provided with notches 41 in which the resistance wire 37 engages to maintain the several convolutions of the wire in properly spaced relation.
It will be observed from the foregoing description of the cruciform core that the convolutions of the resistance wire wound thereon are formed of the same length of wire and are of the same general diamond shape, but that the convolutions of wire on one half of the core are wide vertically and narrow horizontally while the convolutions on the other half are narrow vertically and wide horizontally. This arrangement permits the use of a maximum length of resistance wire in a coil of given length and diameter, affords a highly effective distribution of the wire in the path of the air whereby the air is rapidly and uniformly heated, and avoids choking of the air' passage through the heating element and excessive concentration of heat at one point.
It will be observed also that the core is so constructed that it cannot be laterally defiected or canted in the casing 20, the side edges of the wider portions of sheets21 and 22 having a long bearing or contact with the casing at four circumferentially spaced points. hen contacts 18 are en gaged in contacts 16 they assist bar 27 in preventing rotation of the core.
In Fig. 10 a slightly modified form of resistor is shown, the portions of the resistance wire 37 between the wings of the core being coiled in helical form, thus greatly increasing the length of wire in a heater of given diameter and length. It will be obvious that the relative widths and lengths of the two halves of the sheets may be varied and that each sheet may be formed with more than two stepped edges at each side if desired.
What I claim is:
1. An electric heating coil comprising a conductor wound spirally in symmetrical convolutions elongated transversely of the axis of the coil, said convolutions being arranged in successive groups with the convolutions in each group in register and the different groups of convolutions stepped around the axis of the coil.
2. An electric heater comprising a tubular casing, a support extending longitudinally of the casing, and a resistor spirally wound on the support, said support having radial wings with stepped'side edges upon which the resistor is wound.
3. An electric heater comprising a cruciform support having Wings with stepped outer edges, the narrower portions of the two pairs of parallel wings being located at opposite ends of the support, and a resistor wound spirally around the support.
4. An electric heater comprising a pair of interlocked sheets of insulating material having stepped longitudinal edges, the edges of the two sheets being stepped in opposite directions, and a resistor wound spirally around the stepped edges of the interlocked sheets.
5. An electric heater comprising a cruciform core having its two pairs of parallel wings reduced in width for a portion of their length adjacent opposite ends of the core, and a resistance wire wound spirally around the core and supported by the longitudinal edges of the wings.
6. An electric heating coil comprising a conductor wound spirally in a plurality of series of diamond-shaped convolutions, all of said convolutions being of the same size and symmetrical with respect to the axis of the coil, and the difi'erent series of convolutions being staggered with respect to each other around the axis of the coil.
7. An electric heater comprising a core having four radially extending wings with stepped outeredges, the narrower portions of one pair of parallel wings being located at one end of the core and the narrower portions of the other pair of parallel wings being located at the opposite end of the core, a resistor wound spirally around said core and supported by the outer edges of the wings, and a casing, surrounding the core and resistor and engaged along its inner side by the wider portions of the four wings of the core.
8. An electric heater comprising four resistor supports arranged radially around a common axis, the two pairs of oppositely disposed supports having their outer resistor supporting edges stepped in opposite directions, a spirally wound resistor supported by the stepped edges of said supports, said stepped edges of the supports being notched to receive the resistor, and a tubuports, said stepped edges of the supports being notched to receive the resistor, a tubular casing enclosing said supports and resistor and engaged at four clrcumferentially spaced points by said supports, and means for holding the supports against rotation in the casing.
10. An electric heater comprising a core having four radially extending wings with stepped outer edges, the narrower portions of one pair of parallel wings being located at one end of the core and the narrower portions of the other pair of parallel wings being located at the opposite end of the core, a resistor wound spirally around said core and supported by the outer edges of the wings, a casing surrounding the core and resistor and engaged along its inner side by the wider portions of the four wings of the core, and means connecting the core and casing for holding the core against rotation in the casing.
11. An electric heater comprising a resistor wound spirally in a plurality of series of symmetrical convolutions non-circular in end view, the convolutions of each series being in register and the different series of convolutions being stepped around a com- -mon axis, and means for supporting said resistor.
12. An electric heater comprising a skeleton core, and a resistor wound spirally on said core in two series of convolutions, said convolutions being diamond-shaped in end View and the two series of convolutions being staggered around a common axis.
In testimony whereof I hereunto afiix my signature.
LEWIS B. BRIDGES.
US503734A 1921-09-28 1921-09-28 Air heater Expired - Lifetime US1490089A (en)

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4230933A (en) * 1978-02-17 1980-10-28 Dov Z. Glucksman Electric air heating element
DE3232291A1 (en) * 1982-08-31 1984-03-01 Braun Ag, 6000 Frankfurt METHOD FOR PRODUCING AN ELECTRIC WIRE HEATING ELEMENT AND WIRE HEATING ELEMENT, WHICH CAN BE PRODUCED BY THIS METHOD
US5111527A (en) * 1990-03-12 1992-05-05 Gte Products Corporation Electric heater with thermistor temperature control

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4230933A (en) * 1978-02-17 1980-10-28 Dov Z. Glucksman Electric air heating element
DE3232291A1 (en) * 1982-08-31 1984-03-01 Braun Ag, 6000 Frankfurt METHOD FOR PRODUCING AN ELECTRIC WIRE HEATING ELEMENT AND WIRE HEATING ELEMENT, WHICH CAN BE PRODUCED BY THIS METHOD
US5111527A (en) * 1990-03-12 1992-05-05 Gte Products Corporation Electric heater with thermistor temperature control

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