Apparatus and method for wireless power transfer in furniture

What is claimed is: 1. An apparatus for wireless power transfer comprising: an article of furniture having an internal frame and an upholstery covering; at least one transmitting resonator carried by said frame and disposed at least partially beneath said upholstery covering; the at least one transmitting resonator being tuned for resonance at a predetermined frequency; a high frequency power source carried by said frame and electrically coupled to said at least one transmitting resonator, the high frequency power source being further adapted for coupling to a source of electric power external to the article of furniture; the high frequency power source and the at least one transmitting resonator producing in the near field adjacent the at least one transmitting resonator a magnetic field that couples and transfers power at the predetermined frequency, and at least one compound passive resonator carried by said frame and disposed at least partially beneath said upholstery covering; the compound passive resonator having a portion thereof being disposed in the near field adjacent the at least one transmitting resonator and being operative to extend the magnetic field produced by the at least one transmitting resonator; the compound passive resonator comprising at least two coils electrically connected by a conductive component of said frame to define an antenna having no direct current flow path between the at least two coils. 2. The apparatus of claim 1 further comprising a receiving resonator adapted to be electrically coupled to a load device, the receiving resonator being tuned for resonance at the predetermined frequency and when placed in the near field adjacent the transmitting resonator transferring power received from the transmitting resonator to the load device. 3. The apparatus of claim 1 wherein the at least one transmitting resonator includes an impedance matching circuit that increases a Q factor of the transmitting resonator. 4. The apparatus of claim 2 wherein the receiving resonator includes an impedance matching circuit that increases a Q factor of the receiving resonator. 5. The apparatus of claim 1 wherein the article of furniture is a chair or sofa having a seat, a back and at least one arm and wherein the at least one transmitting resonator is disposed in a portion of the chair or sofa selected from the group consisting of the seat, the back, the at least one arm. 6. The apparatus of claim 1 wherein the article of furniture is a chair or sofa having a seat, and a back and wherein the at least one transmitting resonator is disposed in at least one of said seat and said back. 7. The apparatus of claim 1 wherein the article of furniture is a chair or sofa having an extendable leg rest and wherein the at least one transmitting resonator is disposed in said leg rest. 8. The apparatus of claim 7 further comprising a pair of footwear each having a receiving resonator and an attached heating element incorporated therein, the receiving resonator being positioned in the footwear so that the receiving resonator lies within the near field of the at least one transmitting resonator disposed in said leg rest when the footwear are worn by a person seated in said chair or sofa. 9. The apparatus of claim 1 further comprising a heating pad having a receiving resonator disposed therein, the heating pad having a heating element electrically coupled to said receiving resonator, the heating element receiving electrical power transferred from the at least one transmitting resonator via the receiving resonator. 10. The apparatus of claim 1 further comprising a heating blanket or shawl having a receiving resonator disposed therein, the heating blanket or shawl having a heating element electrically coupled to said receiving resonator, the heating element receiving electrical power transferred from the at least one transmitting resonator via the receiving resonator. 11. The apparatus of claim 1 wherein one of said at least two coils is positioned within the near field adjacent the at least one transmitting resonator. 12. A method for outfitting an article of furniture for wireless power transfer comprising: in an article of furniture having an internal frame and an upholstery covering, providing at least one transmitting resonator carried by said frame and disposed at least partially beneath said upholstery covering; tuning the at least one transmitting resonator for resonance at a predetermined frequency; supporting a high frequency power source by said frame and electrically coupling said high frequency power source to said at least one transmitting resonator, configuring the high frequency power source to be coupled to a source of electric power external to the article of furniture; configuring the high frequency power source and the at least one transmitting resonator to produce in the near field adjacent the at least one transmitting resonator a magnetic field that couples and transfers power at the predetermined frequency when coupled to a source of electrical power external to the article of furniture, and further providing at least one compound passive resonator carried by said frame and disposed at least partially beneath said upholstery covering; the compound passive resonator having a portion thereof being disposed in the near field adjacent the at least one transmitting resonator and being operative to extend the magnetic field produced by the at least one transmitting resonator; the compound passive resonator comprising at least two coils electrically connected by a conductive component of said frame to define an antenna having no direct current flow path between the at least two coils. 13. The method of claim 12 further comprising providing a receiving resonator adapted to be electrically coupled to a load device; tuning the receiving resonator for resonance at the predetermined frequency such that when the receiving resonator is placed in the near field adjacent the transmitting resonator the receiving resonator transfers power received from the transmitting resonator to the load device. 14. The method of claim 13 further comprising attaching to the at least one transmitting resonator an impedance matching circuit that increases a Q factor of the transmitting resonator. 15. The method of claim 13 further comprising attaching to the receiving resonator an impedance matching circuit that increases a Q factor of the receiving resonator. 16. The method of claim 12 wherein the article of furniture is a, chair or sofa having a seat, a back and at least one arm and further comprising installing the at least one transmitting resonator in a portion of the chair or sofa selected from the group consisting of the seat, the back, the at least one arm. 17. The method of claim 12 wherein the article of furniture is a chair or sofa having an extendable leg rest and further comprising installing the at least one transmitting resonator in said leg rest. 18. The method of claim 17 further comprising providing a pair of footwear each having a receiving resonator and an attached heating element incorporated therein, and adapting the receiving resonator to be positioned in the footwear so that the receiving resonator lies within the near field of the at least one transmitting resonator disposed in said leg rest when the footwear are worn by a person seated in said chair or sofa. 19. The method of claim 12 further comprising providing a heating pad having a receiving resonator disposed therein, and having a heating element elec