TH25610B - Developed dip heating element with high heat conductivity polymer coating. - Google Patents

Abstract

DC60 Various resistive heating elements are built which are useful in heating a flowing medium, such as air and water. Reinforced surface supports and resistance wire It is bounded on the supporting surface, which is connected to a pair of terminal ends that are placed over the resistance wire, and over most of the surface. The supporting face, is a heat-conducting polymer coating that is completely sealed. And as an electrical insulation for the wire That resistance From the fluid to be heated This thermal conductive coating has a thermal conductivity. At least about 0.5 W / m degrees Kelvin. Various developed properties. That's right Will be caused It is formed by ceramic powders such as Al2O3 and MgO, and glass fiber additives. Various resistive heating elements are created which are useful in heating the flowing medium, such as air and water. Various heat components that contain Support surface and resistance wire It is bounded on the supporting surface, which is connected to a pair of terminal ends that are placed over the resistance wire, and over most of the surface. The supporting face, is a heat-conducting polymer coating that is completely sealed. And as an electrical insulation for the wire That resistance From the fluid to be heated This thermal conductive coating has a thermal conductivity. At least about 0.5 W / m K. Various developed properties. That's right Will be caused Made up of ceramic powders such as Al2O3 and MgO, and glass fiber additives.

Claims (5)

1.Electrical resistance heating components For use in connection with giving Heat a fluid medium, which consists of: (a) a component with one secondary surface on it, (b) a resistance wire wound on that supporting surface. And was connected to the Minimal one pair of The connector end of the component, and (c) is a thermally conductive polymer coating. That was placed over the wire Such resistance and supporting surfaces for hermetically sealed and electrically insulated enclosures. Such resistance wire from a fluid medium, such polymer coating. Contains a non-conductive, but thermally conductive ceramic additive 2. Heating element of claim 1, which is coated with such polymer, has a minimum thermal conductivity of approximately 0.5 W / m. ํ K 3. Heating element of claim 2, which the polymer coating is made up of is thermoplastic resin with a melting point above 200 ํ 4. Heating element of claim 2. Claim 3, which is polyethylene coating The above includes Fiber reinforcement 5. heating element of claim 4, which reinforcement Such fibers are composed of glass, boron, graphite, aramid or carbon fibers. 6. Heating element of claim 1, in which the ceramic additive is The mick consists of nitrides, oxides or carbides. 7. Heating element of claim 6, which the polymer coating consists of: Contains approximately 60-200 parts of the aforementioned ceramic additive per hundred parts of the polymer in the aforementioned polymer coating. 8. Heating element of claim 7, which is polymer coated. The die is molded by injection 9. The heating element of claim 1, in which the resistance wire is completely encapsulated within the said polymer coating during casting 1 0. Water heater It includes: (a) water tank, (b) heating element. That is attached to the wall of the tank for heating from Electrical resistance to a part of the water in the tank, such heating element includes: support frame; Resistance wire That is wrapped on the supporting frame And connected to at least that Most one pair of Connector end; And a thermally conductive polymer coating is placed over the said resistance wire and the main part of Such reinforcement To completely encapsulate and electrically insulate the resistance wire from the liquid Such polymer coating Included with non-conductive additives But conduct heat for obtaining heat conductivity At least approximately 0.5 W / m K 1 1. Water heaters of claim 10, which the aforementioned polymer coatings contain, contains fiber additives for improving mechanical strength. And additives do not conduct electricity but conduct heat. Ceramic additive with nitride, carbide or oxide 1 2. Method of manufacture of resistive components for fluid heating, which includes: (a). Supports (b) the wires to heat the resistance onto the supporting frame; (c) Polymer coating does not conduct electricity but conducts heat. Above the wire gives Heat with heat Such resistance And part of the supporting frame Such support is not significant. For electrical insulation and hermetic encapsulation For such wire From the said fluid Polymer coating The heat conductivity of at least approximately 0.5 W / m K 1 3. Method of claim 12, which the aforementioned coating process (c) consists of casting by Injection 1 4. Method of claim 13, in which the aforementioned thermally conductive polymer coatings consist of approximately 60-200 parts of a ceramic additive per hundred parts of the polymer 1. 5. Method of claim 12, on which such polymer coatings Included Thermoplastic resin, ceramic powder, and cut glass fibers 1 6. Method of claim 15, in which the aforementioned thermoplastic resin is composed of PPS, and its thermal conductivity. Approximately 0.7 W / m K 1 7. Method of claim 15, in which the thermoplastic resin is comprised of LCP 1 8. Method of claim 12, where the coating process (c) It consists of dipping resistance wire. Provides such heat and the supporting frame. Enters fluidized bed 1 9. Electric resistance heating element at Can be placed through the wall of the tank For use in connection with heating Fluid medium, consisting of: (a) polymer reinforcement; (b) resistance heating wire With one pair of free ends welded to the terminal ends, the heating resistance wire is wound on it and supported by the support frame; And (c) non-conductive polymer coatings with ceramic additives. Mick that conducts heat and is an electrical insulator For improving the condition For the heat conducting of such polymer coatings, such polymer coating is placed over the resistance wire. And part of the support frame to be completely sealed And electrically insulated for such resistance wire From the fluid medium, the aforementioned polymeric coating has the thermal conductivity. At least about 0.5 W / m K 2 0. Heating element of claim 19, in which staggered additives The ramic contains an oxide of aluminum or magnesium 2. 1. The heating element of claim 20, which the polymer coating is mentioned above, includes With 2 cut glass fibers 2.Electrical resistance heating elements For connection With fluid medium heating, consisting of: (a) a component with an additional surface supported on it; (b) a resistance wire that is wound on such a support surface and connected to Be with at least one pair of the connector end of the said component; And (c) polymer coating does not conduct electricity but conduct heat. Placed above Such resistance wire And the extra facial skin part Such support is significant. To be sealed And electrically insulated Such resistance wire From the medium of fluid Loud polymer coating Include A ceramic additive that does not conduct electricity but is heat conducting to obtain a minimum thermal conductivity of approximately 0.5 W / m K through such glaze 2. 3.Electrical resistance heating elements For use in connection with heating a fluid medium, which includes: (a) resistive wire: (b) electrically insulated and enclosed ceramic material such electrical resistance wire; (c) Metal enclosures That encapsulates the said ceramic material And resistance wire Resist such electricity; And (d) thermally conductive polymer coating. These metal enclosures are placed over such metal enclosures to be hermetically sealed and electrically insulated. The metal enclosures from the fluid, the polymer coatings, have a thermal conductivity. At least about 0.5 W / m K 2 4.Electrical resistance heating elements For use in connection with fluid medium heating, which includes: (a) electric resistance wire; (b) a ceramic material that surrounds and insulates such electric resistance wire; (c) Metal enclosures which cover the said ceramic material and the aforementioned resistive wire; And (d) thermally conductive polymer coating. To be completely sealed and electrically insulated, the metal sheath from the fluid, the polymer coating contains a non-conductive ceramic additive. But brings heat 2 5. Heating element of claim 24, with such polymer coating, has a minimum thermal conductivity of approximately 0.5 W / m K.