Infrared heating panels are provided with an electrically insulative substrate that carries one or more infrared heating elements. Each heating element includes an elongated first segment attached to a first surface of the substrate and an elongated second segment electrically connected in series wi
Infrared heating panels are provided with an electrically insulative substrate that carries one or more infrared heating elements. Each heating element includes an elongated first segment attached to a first surface of the substrate and an elongated second segment electrically connected in series with the first segment. At least the first segment is a strip of an electrically resistive material adapted to emit infrared radiation in response to a current. The second segment is attached to the second surface of the substrate opposite from and in a parallel arrangement with the first segment such that a first current flowing through the heating element flows through the first segment in a first direction relative to the substrate and flows through the second segment in a second direction opposite the first direction. Saunas, heating systems, and methods for reducing electromagnetic emissions in an infrared sauna are also provided.
대표청구항▼
1. An infrared heating panel, comprising: an electrically insulative planar substrate having a first surface and an opposing second surface; aplurality of infrared heating elements carried by the substrate, each heating element comprising an elongated first segment attached to the first surface anda
1. An infrared heating panel, comprising: an electrically insulative planar substrate having a first surface and an opposing second surface; aplurality of infrared heating elements carried by the substrate, each heating element comprising an elongated first segment attached to the first surface andan elongated second segment attached to the second surface opposite from and in a parallel arrangement with the first segment,the first segment comprising a strip of an electrically resistive thin film adapted to emit infrared radiation in response to a current flow, whereinthe first segment further comprises a first electrical connection point, the second segment further comprises a second electrical connection point, and the first and the second segments are electrically coupled such that a first current flowing between the first and the second connection points flows through the first segment in a first direction relative to the substrate and flows through the second segment in a second direction opposite the first direction;a first power bus attached to the first surface of the substrate and electrically connected with each of the first segments of the heating elements; anda second power bus attached to the second surface of the substrate opposite from and in a parallel arrangement with the first power bus, the second power bus electrically connected with each of the second segments of the heating elements,wherein the first power bus is electrically coupled to the first segments proximate a midpoint of each of the first segments, and wherein the second power bus is electrically coupled to the second segments proximate a midpoint of each of the second segments such that the first and the second segments of each heating element combine to form two current paths between the first and the second power buses. 2. The infrared heating panel of claim 1, wherein the first power bus is electrically coupled to the first segments at the midpoint of each of the first segments. 3. The infrared heating panel of claim 2, wherein the second power bus is electrically coupled to the second segments at the midpoint of each of the second segments. 4. The infrared heating panel of claim 1, wherein the first power bus is electrically coupled to the first electrical connection point of each of the first segments, and wherein the first segment of each heating element has a first end and a second end and the first electrical connection point is closer to the midpoint of the first segment than to the first and the second ends of the first segment. 5. The infrared heating panel of claim 4, wherein the second power bus is electrically coupled to the second electrical connection point of each of the second segments, and wherein the second segment of each heating element has a first end and a second end and the second electrical connection point is closer to the midpoint of the second segment than to the first and the second ends of the second segment. 6. The infrared heating panel of claim 1, wherein the first segment comprises a width and the second segment comprises a flat strip of material having a width substantially equal to the width of the first segment. 7. The infrared heating panel of claim 6, wherein the flat strip of material of the second segment is a flat strip of a metal. 8. The infrared heating panel of claim 7, wherein the electrically resistive material of the first segment is a carbon-based resistive material. 9. The infrared heating panel of claim 8, wherein at least one of the first segment and the second segment is printed upon the substrate. 10. The infrared heating panel of claim 1, further comprising a plurality of metal connecting strips, each connecting strip electrically connecting one of the first segments to one of the second segments about an edge of the substrate. 11. The infrared heating panel of claim 10, wherein the second segment of each heating element comprises a flat metal strip integral with at least one of the plurality of metal connecting strips. 12. An infrared heating panel assembly, comprising the infrared heating panel of claim 1, a back frame member and a front frame member enclosing the substrate and the plurality of infrared heating elements carried by the substrate, an electrical connection for connecting the plurality of infrared heating elements to a source of alternating current, and a thermal shielding layer, wherein the front frame member includes one or more apertures and the thermal shielding layer is positioned between the plurality of infrared heating elements and the one or more apertures. 13. An infrared sauna comprising a plurality of infrared heating panels according to claim 1. 14. An infrared heating panel, comprising: an electrically insulative planar substrate having a first surface and an opposing second surface; aplurality of infrared heating elements carried by the substrate, each heating element comprising an elongated first segment attached to the first surface andan elongated second segment attached to the second surface opposite from and in a parallel arrangement with the first segment,the second segment electrically coupled to the first segment, andat least the first segment comprising a strip of an electrically resistive material adapted to emit infrared radiation in response to a current flow;a first power bus attached to the first surface of the substrate and electrically connected with each of the first segments of the heating elements; anda second power bus attached to the second surface of the substrate opposite from and in a parallel arrangement with the first power bus, the second power bus electrically connected with each of the second segments of the heating elements;wherein the first power bus is electrically coupled to the first segments proximate a midpoint of each of the first segments, and wherein the second power bus is electrically coupled to the second segments proximate a midpoint of each of the second segments such that the first and the second segments of each heating element combine to form two current paths between the first and the second power buses; andwherein the first and the second segments are electrically coupled such that a first current flowing along one of the two current paths flows through the first segment in a first direction relative to the substrate and flows through the second segment in a second direction opposite the first direction. 15. The infrared heating panel of claim 14, wherein the first and the second segments of each heating element have respective first and second ends, and wherein the first power bus is electrically coupled to the first segments closer to the midpoint of the first segments than to the first and the second ends of the first segments, and wherein the second power bus is electrically coupled to the second segments closer to the midpoint of the second segments than to the first and the second ends of the second segments. 16. The infrared heating panel of claim 14, wherein the first power bus is electrically coupled to the first segments at the midpoint of each of the first segments and wherein the second power bus is electrically coupled to the second segments at the midpoint of each of the second segments. 17. The infrared heating panel of claim 14, wherein the first segment of each heating element includes a strip of an electrically resistive thin film adapted to emit infrared radiation in response to a current flow. 18. The infrared heating panel of claim 14, wherein the second segment of each heating element comprises a flat strip of metal. 19. The infrared heating panel of claim 14, wherein at least one of the first segment and the second segment of each heating element is printed upon the substrate. 20. An infrared heating panel, comprising: an electrically insulative planar substrate having a first surface and an opposing second surface;a plurality of infrared heating elements carried by the substrate, each heating element comprising an elongated first segment attached to the first surface comprising a first end and a second end,an elongated second segment attached to the second surface opposite from and in a parallel arrangement with the first segment, the second segment comprising a first end and a second end,the first ends of the first and the second segments being electrically connected together and the second ends of the first and the second segments being electrically connected together, andat least the first segment comprising a strip of an electrically resistive material adapted to emit infrared radiation in response to a current flow;a first power bus attached to the first surface of the substrate and electrically coupled to each of the first segments of the heating elements between the first end and the second end of each of the first segments; anda second power bus attached to the second surface of the substrate and electrically coupled to each of the second segments of the heating elements between the first end and the second end of each of the second segments, opposite from and in a parallel arrangement with the first power bus;wherein the first and the second segments of each heating element combine to form first and second current paths between the first and the second power buses;wherein a first current flowing along the first current path flows through the first segment in a first direction relative to the substrate and flows through the second segment in a second direction opposite the first direction; andwherein a second current flowing along the second current path flows through the first segment in a third direction different than the first direction and flows through the second segment in a fourth direction opposite the third direction. 21. The infrared heating panel of claim 20, wherein the third direction is the same as the first direction and the fourth direction is the same as the second direction. 22. The infrared heating panel of claim 20, wherein the first power bus is electrically coupled to the first segments closer to the midpoint of the first segments than to the first and the second ends of the first segments, and wherein the second power bus is electrically coupled to the second segments closer to the midpoint of the second segments than to the first and the second ends of the second segments. 23. The infrared heating panel of claim 22, wherein the first power bus is electrically coupled to the first segments at approximately the midpoint of each of the first segments, and wherein the second power bus is electrically coupled to the second segments at approximately the midpoint of each of the second segments. 24. The infrared heating panel of claim 20, wherein the electrically resistive material of the first segment comprises a printed carbon-based resistive material, and wherein the second segment of each heating element comprises a flat strip of metal. 25. An infrared heating panel assembly, comprising the infrared heating panel of claim 20, a back frame member and a front frame member enclosing the substrate and the one or more infrared heating elements carried by the substrate, an electrical connection for connecting the one or more infrared heating elements to a source of alternating current, and a thermal shielding layer, wherein the front frame member includes one or more apertures and the thermal shielding layer is positioned between the one or more infrared heating elements and the one or more apertures. 26. A method for reducing electromagnetic emissions in an infrared sauna, comprising: applying power to one or more infrared heating panels, each heating panel comprising an electrically insulative planar substrate, a plurality of infrared heating elements, a first power bus, and a second power bus, each heating element comprising an elongated first segment attached to a first surface of the substrate and an elongated second segment attached to a second surface of the substrate opposite from and in a parallel arrangement with the first segment, the first segment and the second segment of each heating element being electrically coupled together at respective ends;introducing first and second currents from the first power bus into respective first and second portions of the first segment of at least one of the heating elements;flowing the first current through the first portion of the first segment to generate infrared radiation for heating a human in the infrared sauna, the first current flowing through the first portion in a first direction relative to the substrate and generating a corresponding first electromagnetic field at frequencies below the infrared radiation;flowing the first current through a first portion of the second segment of the at least one heating element in a second direction opposite the first direction, the first current generating a corresponding second electromagnetic field that counteracts the first electromagnetic field;flowing the second current through the second portion of the first segment to generate infrared radiation for heating a human in the infrared sauna, the second current flowing through the second portion in a third direction relative to the substrate and opposite the first direction and generating a corresponding third electromagnetic field at frequencies below the infrared radiation; andflowing the second current through a second portion of the second segment of the at least one heating element in a fourth direction opposite the third direction, the second current generating a corresponding fourth electromagnetic field that counteracts the third electromagnetic field.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (12)
Yates Joseph W. (Duluth GA) Cosson Michael S. (Duluth GA), Circuit and method for minimizing electromagnetic emissions.
LaRue John D. (6720 Golf Dr. Dallas TX 75205) LaRue ; Jr. John D. (6720 Golf Dr. Dallas TX 75205), Electric blanket system with reduced electromagnetic field.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.