US1464255A - Electrical heating device - Google Patents

Electrical heating device Download PDF

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US1464255A
US1464255A US574890A US57489022A US1464255A US 1464255 A US1464255 A US 1464255A US 574890 A US574890 A US 574890A US 57489022 A US57489022 A US 57489022A US 1464255 A US1464255 A US 1464255A
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metal
resistance wire
covered
electrical
heating element
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US574890A
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Zimmermann Raul Federico
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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
    • 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

Definitions

  • This invention has reference to electrical heating devices.
  • the electrical heating element comprises an electrical resistance wire wound spirally upon a dry calcinated non-fusible material such as asbestos fibre or core and covered with one or more layers of a dry calcinated nonfusible and electrically insulating material, which may also be asbestos fibre, the whole being embedded in cast aluminium or other suitable metal or alloy.
  • a dry calcinated non-fusible material such as asbestos fibre or core
  • a dry calcinated nonfusible and electrically insulating material which may also be asbestos fibre, the whole being embedded in cast aluminium or other suitable metal or alloy.
  • the resistance wire covered as described above may be embedded in or supported by sufficient metal to form a nucleus.
  • An electrical current is then passed through the resistance wire in order to calcinate the asbestos and to neutralize its hygroscopic condition and the nucleus isthen placed within a suitable mold and aluminium or other metal or alloy cast about it to produce an element or article of the desired shape, care being taken to permit the terminals of the wire to protrude. If the metal of the nucleus be the same as that subsequently cast about it the metal of the 85 said nucleus will autogenously fuse and form a homogeneous mass.
  • a heating element produced in the manner described may be embodied in a variety of electrical cooking or heating utensils or devices.
  • the heating element may fit in or form part of a saucepan, kettle, or other cooking or heating utensil, in which case the covered resistance wire is in the 4 form of a spiral and the metal within which it is embedded is of circular or other suitable shape adapted' to be almost completely surrounded by the liquid to be heated.
  • the heating element is in the form of an elongated mass of metal having the covered resistance wire arranged so as to extend spirally throughout the maj or portion of the length of the metal, which Serial No. 574,890.
  • ribs or vanes are preferably provided with ribs or vanes.
  • the invention may also be embodied in a radlator for heating rooms, buildings, and the like, in which case the heating element is in the form of a plate of metal of suitable shape in which the covered resistance wire is arranged in the form of a loop.
  • the heating element is in the form of a plate of metal of suitable shape in which the covered resistance wire is arranged in the form of a loop.
  • Several of such plates may be employed to form the radiator, being connected together by bolts or other securing means passing through orifices formed in the upper and lower portions of the plates.
  • the invention may also be applied to a soldering iron, theheating element constituting the head of the soldering iron the covered resistance wire being spirally arranged in the metal which is hollowed out so as to provide a longitudinal cavity which extends centrally of the convolutions of the covered resistance wire, and provides a houslng for. the stem of the soldering bit.
  • Figure 2 is a vertical section and Figure 3 a plan partly in section showing the application of the heating element to a saucepan.
  • Figure 4 is a vertical section and Figure 5 a sectional plan showing the heating element embodied in a device for heating relatively large bodies of water or other liquids.
  • Figures 6, 7 and 8 illustrate theapplication of the heating element to a radiator for rooms, buildings and the like, Figures 6 and 7 being respectively an end elevation and a front sectional elevation, and Figure 8 a section on the line A-B of Figure 7.
  • Figures 9 and 10 are respectively a sectional elevation and a sectional plan showing the application of the heating element to a soldering iron.
  • the electrical heating element consists of a resistance wire A, of chrome nickel for instance, wound spirally upon a strip or cord B. of a non-fusible material such as asbestos fibre, a layer or layers C, of a nonfusible and electrically insulating material, which preferably is also asbestos fibre, be ing wrapped or wound around the same, and
  • the covered resistance wire is first supported or embedded by or in suflicient metal to form a nucleus and an electrical current is then passed through the resistance wire to calcinate the asbestos or the like and to neutralize its h groscopic character, and aluminium or ot er metal or allo is cast about the nucleus while in a suita le mold to produce an article or element of the desired shape.
  • This step of first forming a nucleus may however in some circumstances be dispensed with and the requisite amount of metal to form the article or element may be cast about the covered resistance wire in one operation.
  • Figures 2 and 3 illustrate the adaptation of the heating element to a saucepan or cooker, for domestic use for example.
  • the covered resistance wire a in this case is embedded in a circular mass of metal bin the form of a disc, which may be formed by first arranging the covered wire a about a central core of aluminium and after calcinating the asbestos as above described casting aluminium about it, when a homogeneous mass of aluminium with the covered wire embedded therein will be formed.
  • the disc I is formed or provided with an exteriorly threaded boss 6 which may fit within an orifice formed in the.
  • the disc I is located therein in such a way as to be immersed in the water or other liquid in the vessel in such manner as to be almost completely surrounded by the water not only at the top and sides but also at the bottom.
  • the disc b is held firmly in position by a nut is threaded upon the said boss b.
  • the latter is formed with a shouldered portion 6 adapted to be drawn downwardly on to the inner surface of the bottom of the vessel surrounding the orifice, a washer i being interposed to ensure fluid tightness.
  • the terminals d of the resistance wire pass through and project from the said boss, the orifice through which they proje t being sealed hermetically with a suitable insulating material e.
  • the terminals d may if desired be connected directl with a source of electrical current but pref erahly a stand or base It is provided upon which the vessel is supported, the said stand having centrally thereof the terminals f of conductors Z leading from a source of electrical current in such manner that when the vessel is placed upon the stand the terminals '17. thereof contact with the terminals f of the stand and establish the circuit.
  • the standor base It is recessed as shown to accommodate the nut securing the heating element in the vessel (7 and the terminals are insulated from the stand by insulating material c.
  • This construction provides a very efiicient cooking utensil in as there is no direct contact between the electrical current and the liquid in the vessel there is no possibility of decomposition of the liquid by electrolysis while as the metal which is heated by the current is immersed in the liquid in the vessel practically the whole of the electrical energy is utilized for heating and cooking purposes.
  • Fi res 4 and 5 show an alternative form applicable chiefly to the heating of water or other liquid in comparatively large quantities the covered resistance wire a, being embedded within an elongated mass of metal b, the covered resistance wire a, being arranged so as to extend spirally throughout the major portion of the length of the metal which to increase the radiating surface is shown as provided with ribs or vanes b.
  • the diameter of the metal body is increased and is exteriorly threaded as indicated by m so that it may be screwed into an orifice in a wall of the tank or other receptacle with the terminals d of the resistance wire extending through the said orifice so as to be connected with the source of electric supply, fluid tightness being obtained, as in the example given above, by means of suitable insulating and sealing material e surrounding the protruding ends of the wire.
  • the heating element a is shown embodied in a radiator for heating rooms, buildings and the like.
  • the covered resistance wire a is embedded, in the form of a loop, in a plate of metal I) of suitable shape the ends of the resistance wire projecting from one end thereof, a recess or cavity being provided in said plate and filled with a suitable sealing and insulating material e as in the other examples.
  • a suitable sealing and insulating material e as in the other examples.
  • Preferably several of such plates are employed to form the radiator and are connected together by bolts or other securing means passing through orifices 11. formed in the upper and lower portions of the plates.
  • a radiator of any desired "size and heating capacity can therefore be obtained by securing together as many plates as are necessary.
  • the plates 6 are shown as being provided with integral ribs 6 to increase the radiating surface.
  • the invention is shown in Figures 9 and 10 as applied to a soldering iron, the covered resistance wire a being arranged spirally and embedded within a mass of metal 6 constituting the head of the soldering iron the metal being hollowed out so as to provide a longitudinal cavity 0 which extends centrally of the convolutions of the wire and provides a housing for the stem 7) of the soldering bit g.
  • the said stem 7 has a reduced upper portion p extending through an orifice or passageway r communicating f with the cavity 0 and is secured in position by means of a nut a threaded on the said reduced portion.
  • the ends e of the reiii sistance wire project through one side of the head or may if desired be carried through a hollow handle or shaft of the tool which handle may be screwed to a boss t formed on the head, the said boss being me.
  • a hollow handle or shaft of the tool which handle may be screwed to a boss t formed on the head, the said boss being me.
  • heating device hereinafter appearing in the claims is used in its broadest sense, and is intended to include cooking utensils, heating tools, radiators, or any other form of heater.
  • An electrical heating element embodying an electrical resistance wire spirally arranged on and covered with dry calcined insulating mate-rial and embedded in metal cast thereon, the insulating material being calcined by an electric current passed through. the resistance wire before casting the metal thereon.
  • An electrical heating element embodying an electrical resistance wire spirally ar ranged in and covered with dry calcined insulating material embedded in the form of a spiral in a casting of metal provided with screw threads for attachment to a support.
  • An electrical heating element embodying an electrical resistance wire spirally arranged in and covered with dry calcined insulating material embedded in the form of a spiral in a casting of metal provided with screw threads for attachment to a support and with ribs for increasing the heating surface.
  • a heating device comprising an electrical heating element embodying an electrical resistance wire spirally arranged on and covered with dry calcined insulating material embedded in a casting of metal, the covered resistance wire being spirally arranged and embedded within a circularshaped mass of metal fitted withinthe dev1ce.
  • a soldering iron having a head of cast metal in which is embedded an electrical heating element embodying an electrical resistance wire spirally arranged on and covered with dry calcined insulating material embedded in a casting of metal, the said head being fitted with the stem of a solder ing bit which is secured in position by a nut engaging with the said stem.

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  • Resistance Heating (AREA)
  • Cookers (AREA)

Description

Aug. 7, 1923.
R. F. ZIMMERMANN ELECTRICAL HEATING DEVICE 1922 2 Sheets-Sheet 1 Filed July 14 Aug. 7, 1923.
' ELECTRICAL HEATING DEVICE Filed July 14. 1922 2 heetsheet 2 0/ vumamww Patented Aug. 7, 1923.
UNITED STATES RAUL FEDERICO ZIMMERMANN, OF BUENOS AIRES, ARGENTINA.
ELECTRICAL HEATING DEVICE.
Application filed July 14, 1922.
To all whom it may concern:
Be it known that l RAUL FEDERICO ZIM- MERMANN, a citizen of the Argentine Republic, residing at Calle Cangallo 456, Buenos Aires, Argentina, have invented certain new and useful Improvements in or Relating to Electrical Heating Devices, of which the following is a specification.
This invention has reference to electrical heating devices.
In accordance with the invention the electrical heating element comprises an electrical resistance wire wound spirally upon a dry calcinated non-fusible material such as asbestos fibre or core and covered with one or more layers of a dry calcinated nonfusible and electrically insulating material, which may also be asbestos fibre, the whole being embedded in cast aluminium or other suitable metal or alloy. In forming the heating element the resistance wire covered as described above may be embedded in or supported by sufficient metal to form a nucleus. An electrical current is then passed through the resistance wire in order to calcinate the asbestos and to neutralize its hygroscopic condition and the nucleus isthen placed within a suitable mold and aluminium or other metal or alloy cast about it to produce an element or article of the desired shape, care being taken to permit the terminals of the wire to protrude. If the metal of the nucleus be the same as that subsequently cast about it the metal of the 85 said nucleus will autogenously fuse and form a homogeneous mass.
A heating element produced in the manner described may be embodied in a variety of electrical cooking or heating utensils or devices.
For example the heating element may fit in or form part of a saucepan, kettle, or other cooking or heating utensil, in which case the covered resistance wire is in the 4 form of a spiral and the metal within which it is embedded is of circular or other suitable shape adapted' to be almost completely surrounded by the liquid to be heated. In an alternative form applicable chiefly to the heating of water or other liquid in comparatively large quantities the heating element is in the form of an elongated mass of metal having the covered resistance wire arranged so as to extend spirally throughout the maj or portion of the length of the metal, which Serial No. 574,890.
to increase the radiating surface is preferably provided with ribs or vanes.
The invention may also be embodied in a radlator for heating rooms, buildings, and the like, in which case the heating element is in the form of a plate of metal of suitable shape in which the covered resistance wire is arranged in the form of a loop. Several of such plates may be employed to form the radiator, being connected together by bolts or other securing means passing through orifices formed in the upper and lower portions of the plates.
The invention may also be applied to a soldering iron, theheating element constituting the head of the soldering iron the covered resistance wire being spirally arranged in the metal which is hollowed out so as to provide a longitudinal cavity which extends centrally of the convolutions of the covered resistance wire, and provides a houslng for. the stem of the soldering bit.
In order that the said invention may be clearly understood and readily carried into effect I will now proceed to describe the same more fully with reference to the ac companying drawings in which Figure 1 is a view showing the heating element,
Figure 2 is a vertical section and Figure 3 a plan partly in section showing the application of the heating element to a saucepan.
Figure 4 is a vertical section and Figure 5 a sectional plan showing the heating element embodied in a device for heating relatively large bodies of water or other liquids.
Figures 6, 7 and 8 illustrate theapplication of the heating element to a radiator for rooms, buildings and the like, Figures 6 and 7 being respectively an end elevation and a front sectional elevation, and Figure 8 a section on the line A-B of Figure 7.
Figures 9 and 10 are respectively a sectional elevation and a sectional plan showing the application of the heating element to a soldering iron.
The electrical heating element consists of a resistance wire A, of chrome nickel for instance, wound spirally upon a strip or cord B. of a non-fusible material such as asbestos fibre, a layer or layers C, of a nonfusible and electrically insulating material, which preferably is also asbestos fibre, be ing wrapped or wound around the same, and
the whole embedded in cast aluminium or other suitable metal or alloy of a suitable shape for the purpose in view. In some cases the covered resistance wire is first supported or embedded by or in suflicient metal to form a nucleus and an electrical current is then passed through the resistance wire to calcinate the asbestos or the like and to neutralize its h groscopic character, and aluminium or ot er metal or allo is cast about the nucleus while in a suita le mold to produce an article or element of the desired shape. This step of first forming a nucleus may however in some circumstances be dispensed with and the requisite amount of metal to form the article or element may be cast about the covered resistance wire in one operation.
Figures 2 and 3 illustrate the adaptation of the heating element to a saucepan or cooker, for domestic use for example. The covered resistance wire a in this case is embedded in a circular mass of metal bin the form of a disc, which may be formed by first arranging the covered wire a about a central core of aluminium and after calcinating the asbestos as above described casting aluminium about it, when a homogeneous mass of aluminium with the covered wire embedded therein will be formed. The disc I; is formed or provided with an exteriorly threaded boss 6 which may fit within an orifice formed in the. bottom of the cooking utensil g so that the disc I) is located therein in such a way as to be immersed in the water or other liquid in the vessel in such manner as to be almost completely surrounded by the water not only at the top and sides but also at the bottom. The disc b is held firmly in position by a nut is threaded upon the said boss b. Preferably the latter is formed with a shouldered portion 6 adapted to be drawn downwardly on to the inner surface of the bottom of the vessel surrounding the orifice, a washer i being interposed to ensure fluid tightness. The terminals d of the resistance wire pass through and project from the said boss, the orifice through which they proje t being sealed hermetically with a suitable insulating material e. The terminals d may if desired be connected directl with a source of electrical current but pref erahly a stand or base It is provided upon which the vessel is supported, the said stand having centrally thereof the terminals f of conductors Z leading from a source of electrical current in such manner that when the vessel is placed upon the stand the terminals '17. thereof contact with the terminals f of the stand and establish the circuit. The standor base It is recessed as shown to accommodate the nut securing the heating element in the vessel (7 and the terminals are insulated from the stand by insulating material c. This construction provides a very efiicient cooking utensil in as there is no direct contact between the electrical current and the liquid in the vessel there is no possibility of decomposition of the liquid by electrolysis while as the metal which is heated by the current is immersed in the liquid in the vessel practically the whole of the electrical energy is utilized for heating and cooking purposes.
Fi res 4 and 5 show an alternative form applicable chiefly to the heating of water or other liquid in comparatively large quantities the covered resistance wire a, being embedded within an elongated mass of metal b, the covered resistance wire a, being arranged so as to extend spirally throughout the major portion of the length of the metal which to increase the radiating surface is shown as provided with ribs or vanes b. At one end the diameter of the metal body is increased and is exteriorly threaded as indicated by m so that it may be screwed into an orifice in a wall of the tank or other receptacle with the terminals d of the resistance wire extending through the said orifice so as to be connected with the source of electric supply, fluid tightness being obtained, as in the example given above, by means of suitable insulating and sealing material e surrounding the protruding ends of the wire.
In Figures 6 and 7 the heating element a is shown embodied in a radiator for heating rooms, buildings and the like. The covered resistance wire a is embedded, in the form of a loop, in a plate of metal I) of suitable shape the ends of the resistance wire projecting from one end thereof, a recess or cavity being provided in said plate and filled with a suitable sealing and insulating material e as in the other examples. Preferably several of such plates are employed to form the radiator and are connected together by bolts or other securing means passing through orifices 11. formed in the upper and lower portions of the plates. A radiator of any desired "size and heating capacity can therefore be obtained by securing together as many plates as are necessary. The plates 6 are shown as being provided with integral ribs 6 to increase the radiating surface.
The invention is shown in Figures 9 and 10 as applied to a soldering iron, the covered resistance wire a being arranged spirally and embedded within a mass of metal 6 constituting the head of the soldering iron the metal being hollowed out so as to provide a longitudinal cavity 0 which extends centrally of the convolutions of the wire and provides a housing for the stem 7) of the soldering bit g. The said stem 7; has a reduced upper portion p extending through an orifice or passageway r communicating f with the cavity 0 and is secured in position by means of a nut a threaded on the said reduced portion. The ends e of the reiii sistance wire project through one side of the head or may if desired be carried through a hollow handle or shaft of the tool which handle may be screwed to a boss t formed on the head, the said boss being me. cessed as shown to accommodate the sealing and insulating material.
The term heating device hereinafter appearing in the claims is used in its broadest sense, and is intended to include cooking utensils, heating tools, radiators, or any other form of heater.
WhatI claim and desire to secure by Letters Patent of the United States is 1. The method of making an electrical heating element consisting in Winding an electrical resistance wire on a core of insulating material, covering the winding of electrical resistance wire with insulatin material, calcining the insulating materiaf by passing an electrical current through the resistance wire and embedding the resistance wire with its covering and core of calcined insulating material by casting metal around the same.
2. An electrical heating element embodying an electrical resistance wire spirally arranged on and covered with dry calcined insulating mate-rial and embedded in metal cast thereon, the insulating material being calcined by an electric current passed through. the resistance wire before casting the metal thereon.
3. An electrical heating element embodying an electrical resistance wire spirally arranged on and covered with dry calcined asbestos embedded in a casting of aluminum. I 4. An electrical heating element embodying an electrical resistance wire spirally arranged 1n and covered with dry calcined insulating ma-terial embedded in the form of a spiral in a casting of metal.
5. An electrical heating element embodying an electrical resistance wire spirally ar ranged in and covered with dry calcined insulating material embedded in the form of a spiral in a casting of metal provided with screw threads for attachment to a support.
6. An electrical heating element embodying an electrical resistance wire spirally arranged in and covered with dry calcined insulating material embedded in the form of a spiral in a casting of metal provided with screw threads for attachment to a support and with ribs for increasing the heating surface.
7. A heating device comprising an electrical heating element embodying an electrical resistance wire spirally arranged on and covered with dry calcined insulating material embedded in a casting of metal, the covered resistance wire being spirally arranged and embedded within a circularshaped mass of metal fitted withinthe dev1ce.
8. A soldering iron having a head of cast metal in which is embedded an electrical heating element embodying an electrical resistance wire spirally arranged on and covered with dry calcined insulating material embedded in a casting of metal, the said head being fitted with the stem of a solder ing bit which is secured in position by a nut engaging with the said stem.
RAUL FEDERICO ZIMMERMANN.
US574890A 1922-07-14 1922-07-14 Electrical heating device Expired - Lifetime US1464255A (en)

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Cited By (18)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2448856A (en) * 1945-10-02 1948-09-07 William A Bohannon Electric heating device
US2457596A (en) * 1946-11-19 1948-12-28 Mcgraw Electric Co Water heater
US2469634A (en) * 1947-04-17 1949-05-10 Valley Welding & Boiler Co Electric heating unit
US2474988A (en) * 1943-08-30 1949-07-05 Sargrove John Adolph Method of manufacturing electrical network circuits
US2536767A (en) * 1946-10-16 1951-01-02 Alfred E Reimers Cast-metal electrically-heated device and resistance elements therefor
US2606992A (en) * 1950-03-27 1952-08-12 Harry F Macdonald Air heater
US2640907A (en) * 1950-12-01 1953-06-02 Glas Col Apparatus Co Inc Warming device
US2648275A (en) * 1950-02-07 1953-08-11 Man U Tech Inc Bun toaster
US2726974A (en) * 1949-08-03 1955-12-13 Bendix Aviat Corp Machine for bonding lining to a brake shoe
US3045101A (en) * 1959-09-17 1962-07-17 Gen Motors Corp Electric plate heater
US3211884A (en) * 1946-02-21 1965-10-12 Ernest R Boller Canning machine
US3678246A (en) * 1970-06-24 1972-07-18 Oster Mfg Co John Liquid heating vessel
US4896023A (en) * 1987-12-21 1990-01-23 Goro Uchiyama Dry and wet heater
US5129033A (en) * 1990-03-20 1992-07-07 Ferrara Janice J Disposable thermostatically controlled electric surgical-medical irrigation and lavage liquid warming bowl and method of use
US5397875A (en) * 1992-11-24 1995-03-14 Bechtold, Jr.; Joseph A. Portable appliance for heating towels and for dispensing heated fluid such as body oil to facilitate the administration of a massage
US5736714A (en) * 1992-11-24 1998-04-07 Bechtold, Jr.; Joseph A. Portable towel heating appliance with accessories
US20060263267A1 (en) * 2005-05-17 2006-11-23 Witz Lori L In-field saline solution warming graduate
US20130313137A1 (en) * 2010-11-24 2013-11-28 Inergy Automotive Systems Research (Societe Anonyme) Engine exhaust gas additive storage tank

Cited By (19)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2474988A (en) * 1943-08-30 1949-07-05 Sargrove John Adolph Method of manufacturing electrical network circuits
US2448856A (en) * 1945-10-02 1948-09-07 William A Bohannon Electric heating device
US3211884A (en) * 1946-02-21 1965-10-12 Ernest R Boller Canning machine
US2536767A (en) * 1946-10-16 1951-01-02 Alfred E Reimers Cast-metal electrically-heated device and resistance elements therefor
US2457596A (en) * 1946-11-19 1948-12-28 Mcgraw Electric Co Water heater
US2469634A (en) * 1947-04-17 1949-05-10 Valley Welding & Boiler Co Electric heating unit
US2726974A (en) * 1949-08-03 1955-12-13 Bendix Aviat Corp Machine for bonding lining to a brake shoe
US2648275A (en) * 1950-02-07 1953-08-11 Man U Tech Inc Bun toaster
US2606992A (en) * 1950-03-27 1952-08-12 Harry F Macdonald Air heater
US2640907A (en) * 1950-12-01 1953-06-02 Glas Col Apparatus Co Inc Warming device
US3045101A (en) * 1959-09-17 1962-07-17 Gen Motors Corp Electric plate heater
US3678246A (en) * 1970-06-24 1972-07-18 Oster Mfg Co John Liquid heating vessel
US4896023A (en) * 1987-12-21 1990-01-23 Goro Uchiyama Dry and wet heater
US5129033A (en) * 1990-03-20 1992-07-07 Ferrara Janice J Disposable thermostatically controlled electric surgical-medical irrigation and lavage liquid warming bowl and method of use
US5397875A (en) * 1992-11-24 1995-03-14 Bechtold, Jr.; Joseph A. Portable appliance for heating towels and for dispensing heated fluid such as body oil to facilitate the administration of a massage
US5736714A (en) * 1992-11-24 1998-04-07 Bechtold, Jr.; Joseph A. Portable towel heating appliance with accessories
US20060263267A1 (en) * 2005-05-17 2006-11-23 Witz Lori L In-field saline solution warming graduate
US20130313137A1 (en) * 2010-11-24 2013-11-28 Inergy Automotive Systems Research (Societe Anonyme) Engine exhaust gas additive storage tank
US10337369B2 (en) * 2010-11-24 2019-07-02 Plastic Omnium Advanced Innovation And Research Engine exhaust gas additive storage tank

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