A heating unit for use in heating a fluid conduit is disclosed. The heating unit includes first and second pliable cover layers. A pliable electrical heating element is disposed between the first and second cover layers. The pliable electrical heating element includes a heat generating element for c
A heating unit for use in heating a fluid conduit is disclosed. The heating unit includes first and second pliable cover layers. A pliable electrical heating element is disposed between the first and second cover layers. The pliable electrical heating element includes a heat generating element for converting electrical energy to heat energy and a heat spreading element that is attached to the heat generating element. The heat spreading element comprises carbon that is thermally coupled to the heat generating element for distributing the heat energy. A thermal insulation layer is attached to a second side of the pliable electrical heating element and is positioned adjacent the first cover layer. Additionally, a receiving power connector is electrically connected to the heat generating element and is configured to couple to an electrical power source. The heating unit is sized to substantially cover the fluid conduit.
대표청구항▼
1. A heating unit for use in heating a fluid conduit, the heating unit comprising: opposing first and second cover layers, at least one of the first and second cover layers forming a sealing flap;an electrical heating element disposed between the first and second cover layers, the electrical heating
1. A heating unit for use in heating a fluid conduit, the heating unit comprising: opposing first and second cover layers, at least one of the first and second cover layers forming a sealing flap;an electrical heating element disposed between the first and second cover layers, the electrical heating element comprising: an electrically resistive heat generating element for converting electrical energy to heat energy, the heat generating element being disposed within an area in the heating unit that is defined by a length and a width; anda heat spreading element comprising a substantially uniform and contiguous laminate sheet of carbon, the substantially uniform and contiguous laminate sheet of carbon having an area defined by a length and a width, the area of the substantially uniform and contiguous laminate sheet of carbon being greater than the area of heat generating element, the substantially uniform and contiguous laminate sheet of carbon being thermally coupled to and electrically insulated from the heat generating element for substantially uniformly distributing the heat energy over substantially an entire surface area of the second cover layer;a thermal insulation layer positioned between the electrical heating element and the first cover layer;a receiving power connector electrically connected to the heat generating element, the receiving power connector configured to couple to an electrical power source; andone or more fasteners disposed in the first or second cover layer to enable the heating unit to be wrapped around a fluid conduit and secured by the one or more fasteners,wherein the heating unit is sized to cover substantially the entire outer wall circumference and at least a portion of a length of the fluid conduit. 2. The heating unit of claim 1, wherein the heating unit comprises a thermostat configured to regulate an operating temperature of the heating unit. 3. The heating unit of claim 2, wherein the thermostat is set at a predetermined temperature. 4. The heating unit of claim 2, wherein the thermostat is user adjustable. 5. The heating unit of claim 1, wherein the heat spreading element comprises graphite. 6. The heating unit of claim 1, wherein the heat spreading element is thermally isotropic in one plane. 7. The heating unit of claim 1, further comprising an outgoing electrical connector electrically coupled to the receiving power connector, the outgoing electrical connector being configured to couple to receiving power connectors of other heating units. 8. The heating unit of claim 1, wherein the first and second cover layers cooperate to form the sealing flap and the electrical heating and the thermal insulation layer are disposed between the first and second cover layers inside the sealing flap. 9. The heating unit of claim 1, wherein the heat spreading element is attached to the heat generating element with an adhesive. 10. The heating unit of claim 1, wherein the first and second cover layers cooperate to form the sealing flap and the electrical heating and the thermal insulation layer are not disposed between the first and second cover layers inside of the sealing flap. 11. The heating unit of claim 1, wherein the one or more fasteners comprise grommets, snaps, zippers, or a combination thereof. 12. The heating unit of claim 1, wherein the heating unit comprises a timer configured to control when the heating unit supplies heat energy. 13. A heating unit for use in heating a fluid conduit, the heating unit comprising: a first cover layer and a second cover layer associated with one another to form an envelope defining an interior portion, the envelope having opposing first and second edges extending along a length of the envelope, the opposing first and second edges being positionable adjacent to one another when the heating unit is disposed about a fluid conduit;an electrical heating element disposed within the interior portion of the envelope formed by the first cover layer and the second cover layer, the electrical heating element comprising: an electrically resistive heat generating element for converting electrical energy to heat energy, the heat generating element being disposed within an area in the heating unit that is defined by a length and a width; anda heat spreading element comprising a substantially uniform and contiguous laminate sheet of carbon, the substantially uniform and contiguous laminate sheet of carbon having an area defined by a length and a width, the area of the substantially uniform and contiguous laminate sheet of carbon being greater than the area of heat generating element, the substantially uniform and contiguous laminate sheet of carbon being thermally coupled to and electrically insulated from the heat generating element for substantially uniformly distributing the heat energy over substantially an entire surface area of the second cover layer;a thermal insulation layer disposed within the envelope formed by the first cover layer and the second cover layer, wherein a first side of the thermal insulation layer is positioned adjacent to a first side of the electrical heating element, and wherein a second side of the thermal insulation layer is positioned adjacent an interior surface of the first cover layer;a sealing flap that extends from one of the opposing first and second edges and along the length of the heating unit, such that the sealing flap substantially covers the adjacently positioned opposing first and second edges when the heating unit is disposed about a fluid conduit to limit the loss of heat energy between the opposing first and second edges, wherein the sealing flap is formed by the first cover layer, the second cover layer, and the electrical heating element and the thermal insulation layer disposed therebetween;a receiving power connector electrically connected to the heat generating element, the receiving power connector configured to couple to an electrical power source; andone or more fasteners configured to secure the heating unit around the fluid conduit,wherein the heating unit is sized to cover substantially the entire outer wall circumference and at least a portion of the length of the fluid conduit. 14. The heating unit of claim 13, wherein the heat spreading element comprises graphite. 15. The heating unit of claim 13, wherein the heating unit is adapted to maintain the fluid conduit within a predetermined temperature range. 16. A heating unit for use in heating a fluid conduit, the heating unit comprising: opposing first and second cover layers, at least one of the first and second cover layers forming a sealing flap;an electrical heating element disposed between the first and second cover layers, the electrical heating element comprising: an electrically resistive heat generating element for converting electrical energy to heat energy, the heat generating element being disposed within an area in the heating unit that is defined by a length and a width; anda heat spreading element comprising a substantially uniform and contiguous laminate sheet of carbon, the substantially uniform and contiguous laminate sheet of carbon having an area defined by a length and a width, the area of the substantially uniform and contiguous laminate sheet of carbon being greater than the area of heat generating element, the substantially uniform and contiguous laminate sheet of carbon being thermally coupled to and electrically insulated from the heat generating element for substantially uniformly distributing the heat energy over substantially an entire surface area of the second cover layer;a thermal insulation layer positioned between the electrical heating element and the first cover layer;a receiving power connector electrically connected to the heat generating element, the receiving power connector configured to couple to an electrical power source; andone or more fasteners to enable the heating unit to be wrapped around a fluid conduit and secured by the one or more fasteners,wherein the heating unit is sized to cover substantially the entire outer wall circumference and at least a portion of a length of the fluid conduit. 17. The heating unit of claim 16, wherein the heat spreading element comprises graphite. 18. The heating unit of claim 16, wherein the heat spreading element is thermally isotropic in one plane. 19. The heating unit of claim 16, wherein the first and second cover layers cooperate to form the sealing flap and the electrical heating and the thermal insulation layer are disposed between the first and second cover layers inside the sealing flap. 20. The heating unit of claim 16, wherein the first and second cover layers cooperate to form the sealing flap and the electrical heating and the thermal insulation layer are not disposed between the first and second cover layers inside of the sealing flap.
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