Field director assembly having overheating protection
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H05B-006/80
H05B-006/64
출원번호
US-0641370
(2006-12-18)
등록번호
US-8367988
(2013-02-05)
발명자
/ 주소
Blankenbeckler, Nicole L.
Corcoran, Jr., William R.
Kawka, Dariusz Wlodzimierz
출원인 / 주소
E I du Pont de Nemours and Company
인용정보
피인용 횟수 :
0인용 특허 :
25
초록
A field director assembly includes electrically conductive vanes positioned with respect to each other and to a planar support member to prevent overheating of the susceptor in an unloaded microwave oven.
대표청구항▼
1. A field director assembly for use in heating an article in a resonant cavity of a microwave oven, the field director assembly comprising: a support member having a geometric center, the support member having a generally planar uninterrupted presentation surface positioned on the field director as
1. A field director assembly for use in heating an article in a resonant cavity of a microwave oven, the field director assembly comprising: a support member having a geometric center, the support member having a generally planar uninterrupted presentation surface positioned on the field director assembly to accept an article for presentation to the resonant cavity of the microwave oven and a second generally planar opposed surface;a field director structure comprising at least two substantially planar vanes each having a connection edge and a single free edge thereon, each vane being mechanically connected along its connection edge to the opposed surface of the support member such that substantially the entire length of the vane is overlaid by the opposed surface of the support member, the mechanical connection being implemented by either a fixed or a hinged connection between the field director structure and the support member,the vanes being connected such that an axis erected through the geometric center of the presentation surface lies on a plane containing one of the planar surfaces of a vane,at least a first portion of each vane being electrically conductive and at least a second portion of the vane being electrically non-conductive,the electrically non-conductive portion of each vane being disposed between the electrically conductive portion of the vane and the opposed surface of the support member such that the electrically conductive portion of each vane is spaced at least a predetermined close distance from the opposed surface of the support member,the electrically conductive portion of each vane having a first end and a second end, the first end of the electrically conductive portion on each of the vanes being disposed in end-wise confrontational relationship with the first end of the electrically conductive portion of another vane, the first end of each vane being at least a predetermined separation distance from the geometric center of the planar support member,so that the occurrence of overheating of the field director assembly is prevented when the same is used in an unloaded microwave oven. 2. The field director assembly of claim 1 wherein the microwave oven is operative to generate a standing electromagnetic wave having a predetermined wavelength, and wherein the predetermined separation distance is at least 0.16 times the wavelength. 3. The field director assembly of claim 1 wherein the microwave oven is operative to generate a standing electromagnetic wave having a predetermined wavelength, and wherein the predetermined close distance is at least 0.025 times the wavelength. 4. The field director assembly of claim 3 wherein the predetermined separation distance is at least 0.16 times the wavelength. 5. The field director assembly of claim 1 wherein the microwave oven is operative to generate a standing electromagnetic wave having a predetermined wavelength, and wherein the predetermined close distance is no greater than 0.1 times the wavelength. 6. The field director assembly of claim 5 wherein the predetermined separation distance is at least 0.16 times the wavelength. 7. The field director assembly of claim 1 wherein the microwave oven is operative to generate a standing electromagnetic wave having a predetermined wavelength, and wherein the predetermined close distance lies in the range from 0.025 times the wavelength to 0.1 times the wavelength. 8. The field director assembly of claim 7 wherein the predetermined separation distance is at least 0.16 times the wavelength. 9. The field director assembly of claim 1 wherein the electrically conductive portion of each vane is surrounded by a border of a lower conductivity material. 10. The field director assembly of claim 9 wherein the electrically conductive portion of the vane has a predetermined width dimension and a corner thereon, the corner of the electrically conductive portion being rounded at a radius up to and including one half of the width dimension. 11. The field director assembly of claim 9 wherein the microwave oven is operative to generate a standing electromagnetic wave having a predetermined wavelength, wherein the border has a predetermined width dimension, and wherein the width of the border is at least 0.025 times the wavelength. 12. The field director assembly of claim 9 wherein the microwave oven is operative to generate a standing electromagnetic wave having a predetermined wavelength, wherein the border has a predetermined width dimension, and wherein the border has a predetermined width dimension, wherein the width of the border of lower conductivity material is no greater than 0.1 times the wavelength. 13. The field director assembly of claim 9 wherein the microwave oven is operative to generate a standing electromagnetic wave having a predetermined wavelength, wherein the border has a predetermined width dimension, and wherein the border has a predetermined width dimension, wherein the width of the border of lower conductivity material lies in the range from 0.025 times the wavelength to 0.1 times the wavelength. 14. The field director assembly of claim 1 wherein the electrically conductive portion of each vane is covered with an electrically non-conducting material. 15. The field director assembly of claim 14 wherein the electrically non-conducting covering is selected from the group consisting of a polyimide tape, a polyacrylic spray coating and a polytetrafluoroethylene spray coating. 16. The field director assembly of claim 1 wherein the electrically conductive portion of each vane comprises a metallic foil less than 0.1 millimeter in thickness and wherein the foil is folded over to at least a double thickness along its perimeter. 17. The field director assembly of claim 1 wherein the microwave oven is operative to generate a standing electromagnetic wave having a predetermined wavelength, and wherein the conductive portion of each vane has a width dimension that is about 0.1 to about 0.5 times the wavelength. 18. The field director assembly of claim 1 wherein the microwave oven is operative to generate a standing electromagnetic wave having a predetermined wavelength, and wherein the conductive portion of each vane has a length dimension from about 0.25 to about 2 times the wavelength. 19. The field director assembly of claim 1 wherein the electrically conductive portion of the vane has a predetermined width dimension and a corner thereon, the corner of the electrically conductive portion being rounded at a radius up to and including one half of the width dimension. 20. A field director assembly for use in heating an article in a resonant cavity of a microwave oven, wherein the microwave oven is operative to generate a standing electromagnetic wave having a predetermined wavelength, the field director assembly comprising: a support member having a geometric center, the support member having a generally planar uninterrupted presentation surface positioned on the field director assembly to accept an article for presentation to the resonant cavity of the microwave oven and a second generally planar opposed surface;a field director structure comprising at least six substantially planar vanes each having a connection edge and a single free edge thereon, each vane being mechanically connected along its connection edge to the opposed surface of the support member such that substantially the entire length of the vane is overlaid by the opposed surface of the support member, the mechanical connection being implemented by either a fixed or a hinged connection between the field director structure and the support member,the vanes being connected such that an axis erected perpendicularly through the geometric center of the presentation surface lies on a plane containing one of the planar surfaces of a vane, each vane being substantially orthogonal with respect to the planar support member,at least a first portion of each vane being electrically conductive and at least a second portion of the vane being electrically non-conductive, the electrically conductive portion of each vane having a first end and a second end,the first end of the electrically conductive portion on each of the vanes being disposed in end-wise confrontational relationship with the first end of the electrically conductive portion of another vane, the first end of each vane being at least a predetermined separation distance from the geometric center of the planar support member, the separation distance being at least 0.16 times the wavelength,the electrically conductive portion of each vane is spaced at least a predetermined close distance from the opposed surface of the support member, wherein the predetermined close distance is at least 0.025 times the wavelength,so that the occurrence of overheating of the field director assembly is prevented when the same is used in an unloaded microwave oven.
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