US2907860A - Immersion heaters - Google Patents

Immersion heaters Download PDF

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Publication number
US2907860A
US2907860A US695264A US69526457A US2907860A US 2907860 A US2907860 A US 2907860A US 695264 A US695264 A US 695264A US 69526457 A US69526457 A US 69526457A US 2907860 A US2907860 A US 2907860A
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tube
housing
hygroscopic
cement
side wall
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US695264A
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Thomas L Geller
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West Bend Co
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West Bend Co
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    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05BELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
    • H05B3/00Ohmic-resistance heating
    • H05B3/02Details
    • H05B3/06Heater elements structurally combined with coupling elements or holders

Definitions

  • a heater of this type is described in US. Patent No. 2,719,212, issued September 27, 1955, for Percolator Heater.
  • the ceramic core with its heating element and the magnesium oxide in powder form between the element and the housing are held in place by a high temperature cement containing sodium silicate.
  • This cement is hygroscopic in nature and consequently in humid conditions absorbs suiiicient moisture to allow electrical current leakage in excess of a safe value above which there is shock hazard.
  • the object of this invention therefore is to eliminate such leakage and prevent such shock hazard.
  • This object is attained by using a non-hygroscopic cement which avoids tendency to absorb moisture and the possibility of electrical shock under normal humidity.
  • the percolator heater is mounted in a hole in the bottom 66 of a container or percolator.
  • a flange 12 on a metal housing is pressed toward such bottom by a nut 72 threaded on a mounting stud 50 and pressing a shell 68 against the lower side of such bottom.
  • the top is recessed to form a seat or shoulder 16 which engages the upper end of a ceramic tube 18 to center said tube spaced from the side wall of the housing.
  • This tube carries a spirally wound resistance ribbon forming a heating element 20.
  • the tube 18 has an upper notch 22 and a lower notch 24 permitting the passage to the interior of such tube of insulated braided copper lead wires 26 and 28 connected to the ends of the heating. element 20.
  • a ring 30 of nonhygroscopic high temperature cement is placed in the tube to more securely hold the upper end of the tube in proper position.
  • the space between the wall of the housing and the outer surface of the tube is then filled with magnesium oxide 32 in powder form.
  • the magnesium oxide transfers heat from the element 20 to the housing with minimum loss.
  • the magnesium oxide is held in place and the lower end of the tube 18 is more securely held by a ring 34 of non-hygroscopic high temperature cement forced down on the oxide between the tube and the housing.
  • a rigid ceramic washer 36 is then fitted within the open end of the housing and may be pressed in place before the cement is set.
  • a metal cover 42, to which the stud 50 is attached, is then seated on the ceramic washer and the end of the cover is crimped inwardly and upwardly against such cover.
  • the non-hygroscopic cement in the rings 30 and 34 will not absorb moisture during humid conditions and I thus the tendency of current leakage and the possibility of electrical shock is eliminated.
  • One of the materials tested for this purpose was 11X208 Sicon cement manufactured by Midland Industrial Finishes. Heaters made with this material were tested and a leakage current to ground of approximately 6 microamps was measured after a 48 hour test at 85% relative humidity and 85 F. ambient temperature. This value compares with a leak- ICC? age to ground of greater than 200 milliamperes occurring in heaters not using the non-hygroscopic cement.
  • any binder for magnesium oxide which (a) will withstand the temperature involved, (b) is non-hygroscopic, (c) has good dielectric properties, and (d) will make the magnesium oxide rigid enough to anchor the core and element in the housing would be satisfactory.
  • the ceramic tube 18 with the heating element 20 may be coated with the non-hygroscopic cement before the tube is inserted in the housing 10 and thus protect the windings from undue current leakage.
  • a heater for a coffee percolator or the like a metal housing, a heating element in said housing, and a non-hygroscopic electrical insulating heat conducting material between said housing and said heating element.
  • a heater for a coffee percolator or the like a metal housing, a heating element in said housing, a ring of non-hygroscopic high temperature cement between said housing and saidheating element adjacent one end thereof, a filling of magnesium oxide in powder form between said housing and said element, and a ring of nonhygroscopic high temperature cement between said housing and heating element adjacent the other end thereof confining said filling.
  • a heater for a cofiee percolator or the like a metal casing having an imperforate top, a side wall and an open bottom, a ceramic tube having a heating element mounted on the exterior thereof, said tube being mounted in said housing and spaced from said side wall, a filling of non-hygroscopic electrical insulating heat conducting material tightly packed in the space between said tube and said side wall, and a closure member held in said open bottom.
  • a heater for a coflee percolator or the like a metal casing having an imperforate top, a side wall and an open bottom, a ceramic tube having a heating element mounted on the exterior thereof, said tube being mounted in said housing and spaced from said side wall, a ring of non-hygroscopic high temperature cement between said side wall and the top margin of said tube, a filling of magnesium oxide in powder form between said side wall and said tube below said ring, a second ring of nonhygroscopic high temperature cement between said side wall and the bottom margin of said tube to hold said filling in place and support the lower end of said tube, and a closure member mounted in said open bottom.
  • a heater for a coffee percolator or the like a metal housing, a heating element in said housing, and a non-hygroscopic electrical insulating heat conducting material coating over said heating element.
  • a heater for a coffee percolator or the like a metal casing having an imperforate top, a side wall and an open bottom, a ceramic tube having a heating element mounted on the exterior thereof, said tube being mounted in said housing and spaced from said side wall, a ring of non-hygroscopic high temperature cement between saidrside wall and the top margin of said tube, a second ring of non-hygroscopic high temperature cement between said side wall and the bottom margin of said tube to support the lower end of said tube, and a closure member mounted in said open bottom.

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  • Resistance Heating (AREA)

Description

Oct. 6, 1959 T. L. GELLER 2,907,860
IMMERSION HEATERS Filed Nov. 8, 1957 INVENTOR. THoMAs L.GE.LLER
VMLM M ATTORNEY United States Patent G IMMERSION HEATERS Thomas L. Geller, West Bend, Wis., assignor to West Bend Aluminum Co., West Bend, Wis., a corporation of Wisconsin Application November 8, 1957, Serial No. 695,264 6 Claims. (Cl. 219 -41) This invention relates to improvements in immersion heaters.
A heater of this type is described in US. Patent No. 2,719,212, issued September 27, 1955, for Percolator Heater. In the heater of this patent the ceramic core with its heating element and the magnesium oxide in powder form between the element and the housing are held in place by a high temperature cement containing sodium silicate. This cement is hygroscopic in nature and consequently in humid conditions absorbs suiiicient moisture to allow electrical current leakage in excess of a safe value above which there is shock hazard.
The object of this invention therefore is to eliminate such leakage and prevent such shock hazard.
This object is attained by using a non-hygroscopic cement which avoids tendency to absorb moisture and the possibility of electrical shock under normal humidity.
In the accompanying drawing there is illustrated in vertical cross-section a percolator heater embodying the present invention.
The percolator heater is mounted in a hole in the bottom 66 of a container or percolator. A flange 12 on a metal housing is pressed toward such bottom by a nut 72 threaded on a mounting stud 50 and pressing a shell 68 against the lower side of such bottom.
Interiorly of the housing 10 the top is recessed to form a seat or shoulder 16 which engages the upper end of a ceramic tube 18 to center said tube spaced from the side wall of the housing. This tube carries a spirally wound resistance ribbon forming a heating element 20. The tube 18 has an upper notch 22 and a lower notch 24 permitting the passage to the interior of such tube of insulated braided copper lead wires 26 and 28 connected to the ends of the heating. element 20.
After the tube 18 is inserted in the housing 10, while inverted and centered as described, a ring 30 of nonhygroscopic high temperature cement is placed in the tube to more securely hold the upper end of the tube in proper position. The space between the wall of the housing and the outer surface of the tube is then filled with magnesium oxide 32 in powder form. The magnesium oxide transfers heat from the element 20 to the housing with minimum loss. The magnesium oxide is held in place and the lower end of the tube 18 is more securely held by a ring 34 of non-hygroscopic high temperature cement forced down on the oxide between the tube and the housing. A rigid ceramic washer 36 is then fitted within the open end of the housing and may be pressed in place before the cement is set. A metal cover 42, to which the stud 50 is attached, is then seated on the ceramic washer and the end of the cover is crimped inwardly and upwardly against such cover.
The non-hygroscopic cement in the rings 30 and 34 will not absorb moisture during humid conditions and I thus the tendency of current leakage and the possibility of electrical shock is eliminated. One of the materials tested for this purpose was 11X208 Sicon cement manufactured by Midland Industrial Finishes. Heaters made with this material were tested and a leakage current to ground of approximately 6 microamps was measured after a 48 hour test at 85% relative humidity and 85 F. ambient temperature. This value compares with a leak- ICC? age to ground of greater than 200 milliamperes occurring in heaters not using the non-hygroscopic cement.
It is not necessary that the cement be used in rings at each end of the magnesium oxide 32. Any binder for magnesium oxide which (a) will withstand the temperature involved, (b) is non-hygroscopic, (c) has good dielectric properties, and (d) will make the magnesium oxide rigid enough to anchor the core and element in the housing would be satisfactory.
The ceramic tube 18 with the heating element 20 may be coated with the non-hygroscopic cement before the tube is inserted in the housing 10 and thus protect the windings from undue current leakage.
I claim:
1. In a heater for a coffee percolator or the like, a metal housing, a heating element in said housing, and a non-hygroscopic electrical insulating heat conducting material between said housing and said heating element.
2. In a heater for a coffee percolator or the like, a metal housing, a heating element in said housing, a ring of non-hygroscopic high temperature cement between said housing and saidheating element adjacent one end thereof, a filling of magnesium oxide in powder form between said housing and said element, and a ring of nonhygroscopic high temperature cement between said housing and heating element adjacent the other end thereof confining said filling.
3. In a heater for a cofiee percolator or the like, a metal casing having an imperforate top, a side wall and an open bottom, a ceramic tube having a heating element mounted on the exterior thereof, said tube being mounted in said housing and spaced from said side wall, a filling of non-hygroscopic electrical insulating heat conducting material tightly packed in the space between said tube and said side wall, and a closure member held in said open bottom.
4. In a heater for a coflee percolator or the like, a metal casing having an imperforate top, a side wall and an open bottom, a ceramic tube having a heating element mounted on the exterior thereof, said tube being mounted in said housing and spaced from said side wall, a ring of non-hygroscopic high temperature cement between said side wall and the top margin of said tube, a filling of magnesium oxide in powder form between said side wall and said tube below said ring, a second ring of nonhygroscopic high temperature cement between said side wall and the bottom margin of said tube to hold said filling in place and support the lower end of said tube, and a closure member mounted in said open bottom.
5. In a heater for a coffee percolator or the like, a metal housing, a heating element in said housing, and a non-hygroscopic electrical insulating heat conducting material coating over said heating element.
6. In a heater for a coffee percolator or the like, a metal casing having an imperforate top, a side wall and an open bottom, a ceramic tube having a heating element mounted on the exterior thereof, said tube being mounted in said housing and spaced from said side wall, a ring of non-hygroscopic high temperature cement between saidrside wall and the top margin of said tube, a second ring of non-hygroscopic high temperature cement between said side wall and the bottom margin of said tube to support the lower end of said tube, and a closure member mounted in said open bottom.
References Cited in the file of this patent UNITED STATES PATENTS
US695264A 1957-11-08 1957-11-08 Immersion heaters Expired - Lifetime US2907860A (en)

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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3169237A (en) * 1963-01-04 1965-02-09 Mclvin A Thom Electrical resistor device
US3439150A (en) * 1966-08-30 1969-04-15 Alton R Wells Heating device having a specially positioned control thermostat therein
US3728517A (en) * 1971-08-26 1973-04-17 Adams Ind Inc Electric heater and mounting therefor
US3767898A (en) * 1972-12-29 1973-10-23 R Wells Container with a combined electric heater and thermostat unit

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2460795A (en) * 1944-10-03 1949-02-01 Corning Glass Works Method for making rubbery polymeric organo-siloxane compositions
US2464568A (en) * 1945-05-14 1949-03-15 Gen Electric Electrical coil insulated with thermoplastic particles and thermoset polymer
US2489998A (en) * 1948-01-08 1949-11-29 Cutler Hammer Inc Electric tubular heater terminal seal
US2719212A (en) * 1952-12-13 1955-09-27 West Bend Aluminum Co Percolator heater

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2460795A (en) * 1944-10-03 1949-02-01 Corning Glass Works Method for making rubbery polymeric organo-siloxane compositions
US2464568A (en) * 1945-05-14 1949-03-15 Gen Electric Electrical coil insulated with thermoplastic particles and thermoset polymer
US2489998A (en) * 1948-01-08 1949-11-29 Cutler Hammer Inc Electric tubular heater terminal seal
US2719212A (en) * 1952-12-13 1955-09-27 West Bend Aluminum Co Percolator heater

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3169237A (en) * 1963-01-04 1965-02-09 Mclvin A Thom Electrical resistor device
US3439150A (en) * 1966-08-30 1969-04-15 Alton R Wells Heating device having a specially positioned control thermostat therein
US3728517A (en) * 1971-08-26 1973-04-17 Adams Ind Inc Electric heater and mounting therefor
US3767898A (en) * 1972-12-29 1973-10-23 R Wells Container with a combined electric heater and thermostat unit

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