Susceptors capable of balancing stress and effectiveness
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H05B-006/80
H05B-006/64
A23L-001/01
B65D-081/34
A23L-005/10
출원번호
US-0473145
(2014-08-29)
등록번호
US-9844102
(2017-12-12)
발명자
/ 주소
Russell, Anthony
Cole, Lorin R.
Middleton, Scott W.
출원인 / 주소
Graphic Packaging International, Inc.
대리인 / 주소
Womble Bond Dickinson (US) LLP
인용정보
피인용 횟수 :
0인용 특허 :
57
초록▼
An outer portion of one or more layers of microwave interactive material, which is for becoming hot when exposed to microwave energy, is arranged in a manner that seeks to advantageously control heating, so that the outer portion of the microwave interactive material can safely be adjacent the perip
An outer portion of one or more layers of microwave interactive material, which is for becoming hot when exposed to microwave energy, is arranged in a manner that seeks to advantageously control heating, so that the outer portion of the microwave interactive material can safely be adjacent the periphery of a turntable tray. The turntable tray can be heated by the microwave interactive material so that a peak thermally induced stress occurs in the turntable tray at a position proximate the periphery of the tray. The layer(s) of microwave interactive material are configured in a manner so that the peak thermally induced stress is less than a predetermined amount.
대표청구항▼
1. A construct for heating a food item in a microwave oven having a turntable tray, the construct comprising: a bottom panel for being disposed on the turntable tray and in face-to-face contact with the turntable tray, the bottom panel comprising a support layer, a first outer edge, and a second out
1. A construct for heating a food item in a microwave oven having a turntable tray, the construct comprising: a bottom panel for being disposed on the turntable tray and in face-to-face contact with the turntable tray, the bottom panel comprising a support layer, a first outer edge, and a second outer edge, each of the first outer edge and the second outer edge extending from a common outer corner;a susceptor disposed on the support layer and comprising a layer of microwave interactive material that is operative for becoming hot when exposed to microwave energy, the layer of microwave interactive material at least partially defining a central region of the bottom panel, the central region comprising a first inner edge and a second inner edge each extending from a common beveled corner that is recessed from the outer corner, the first inner edge and the second inner edge being substantially parallel to the respective first outer edge and second outer edge; anda marginal region of the support layer at least partially extending between the first outer edge and the first inner edge and between the second outer edge and the second inner edge;wherein an outer periphery of the bottom panel and an inner periphery of the central region are substantially the same shape. 2. The construct of claim 1, wherein the marginal region comprises a corner region extending at least partially between the outer corner and the beveled corner. 3. The construct of claim 1, wherein the layer of microwave interactive material of the susceptor comprises a continuous layer of microwave interactive material mounted on the support layer of the bottom panel. 4. The construct of claim 1, wherein each of the first inner edge and the second inner edge is spaced apart from the respective first outer edge and second outer edge to form the marginal region of the support layer. 5. The construct of claim 1, wherein the bottom panel comprises a plurality of outer corners, the central region comprises a plurality of beveled corners, and each beveled corner of the plurality of beveled corners is generally aligned with and recessed from the respective outer corners of the plurality of outer corners. 6. The construct of claim 5, wherein the marginal region extends around a periphery of the central region. 7. The construct of claim 5, wherein the plurality of outer corners comprises at least four outer corners, and the plurality of beveled corners comprises at least four beveled corners. 8. The construct of claim 1, wherein: the outer corner is a first outer corner, and the beveled corner is a first beveled corner;the bottom panel comprises a third outer edge and a fourth outer edge, the second outer edge and the third outer edge extending from a common second outer corner, and the third outer edge and the fourth outer edge extending from a common third outer corner; andthe central region comprises a third inner edge and a fourth inner edge, the second inner edge and the third inner edge extending from a common second beveled corner that is recessed from the second outer corner, and the third inner edge and the fourth inner edge extending from a common third beveled corner that is recessed from the third outer corner. 9. The construct of claim 8, wherein the fourth outer edge and the first outer edge extend from a common fourth outer corner, and the fourth inner edge and the first inner edge extend from a common fourth inner corner that is recessed from the fourth outer corner. 10. The construct of claim 8, wherein the third inner edge and the fourth inner edge are substantially parallel to the respective third outer edge and fourth outer edge. 11. The construct of claim 10, wherein each of the first inner edge, the second inner edge, the third inner edge, and the fourth inner edge is substantially equidistant from the respective first outer edge, second outer edge, third outer edge, and fourth outer edge. 12. The construct of claim 1, wherein the layer of microwave interactive material comprises interspersed areas that are substantially transparent to microwave energy. 13. The construct of claim 1, wherein the beveled corner is curved. 14. The construct of claim 1, wherein: the layer of microwave interactive material is a first layer of microwave interactive material;the susceptor further comprises a second layer of microwave interactive material that is operative for becoming hot when exposed to microwave energy; andthe second layer of microwave interactive material is disposed on the marginal region of the support layer. 15. The construct of claim 14, wherein per unit area, the first layer of microwave interactive material is more absorbent of microwave energy than the second layer of microwave interactive material. 16. The construct of claim 1, wherein the marginal region is free from microwave interactive material. 17. The construct of claim 1, wherein the bottom panel has a planar configuration. 18. A method of heating a food item in a microwave oven having a turntable tray, the method comprising: obtaining a construct comprising a bottom panel, the bottom panel comprising a support layer, a first outer edge, and a second outer edge, each of the first outer edge and the second outer edge extending from a common outer corner, a susceptor disposed on the support layer and comprising a layer of microwave interactive material that at least partially defines a central region of the bottom panel, the central region comprising a first inner edge and a second inner edge each extending from a common beveled corner that is recessed from the outer corner, the first inner edge and the second inner edge being substantially parallel to the respective first outer edge and second outer edge, and a marginal region of the support layer at least partially extending between the first outer edge and the first inner edge and between the second outer edge and the second inner edge, wherein an outer periphery of the bottom panel and an inner periphery of the central region are substantially the same shape;positioning the food item on at least the central region of the bottom panel;positioning the bottom panel on the turntable tray in face-to-face contact with the turntable tray; andoperating the microwave oven to expose at least the layer of microwave interactive material to microwave energy, causing the layer of microwave interactive material to become heated. 19. The method of claim 18, wherein the marginal region comprises a corner region extending at least partially between the outer corner and the beveled corner. 20. The method of claim 18, wherein the layer of microwave interactive material of the susceptor comprises a continuous layer of microwave interactive material mounted on the support layer of the bottom panel. 21. The method of claim 18, wherein each of the first inner edge and the second inner edge is spaced apart from the respective first outer edge and second outer edge to form the marginal region of the support layer. 22. The method of claim 18, wherein the bottom panel comprises a plurality of outer corners, the central region comprises a plurality of beveled corners, and each beveled corner of the plurality of beveled corners is generally aligned with and recessed from the respective outer corners of the plurality of outer corners. 23. The method of claim 22, wherein the marginal region extends around a periphery of the central region. 24. The method of claim 22, wherein the plurality of outer corners comprises at least four outer corners, and the plurality of beveled corners comprises at least four beveled corners. 25. The method of claim 18, wherein: the outer corner is a first outer corner, and the beveled corner is a first beveled corner;the bottom panel comprises a third outer edge and a fourth outer edge, the second outer edge and the third outer edge extending from a common second outer corner, and the third outer edge and the fourth outer edge extending from a common third outer corner; andthe central region comprises a third inner edge and a fourth inner edge, the second inner edge and the third inner edge extending from a common second beveled corner that is recessed from the second outer corner, and the third inner edge and the fourth inner edge extending from a common third beveled corner that is recessed from the third outer corner. 26. The method of claim 25, wherein the fourth outer edge and the first outer edge extend from a common fourth outer corner, and the fourth inner edge and the first inner edge extend from a common fourth inner corner that is recessed from the fourth outer corner. 27. The method of claim 25, wherein the third inner edge and the fourth inner edge are substantially parallel to the respective third outer edge and fourth outer edge. 28. The method of claim 27, wherein each of the first inner edge, the second inner edge, the third inner edge, and the fourth inner edge is substantially equidistant from the respective first outer edge, second outer edge, third outer edge, and fourth outer edge. 29. The method of claim 18, wherein the layer of microwave interactive material comprises interspersed areas that are substantially transparent to microwave energy. 30. The method of claim 18, wherein the beveled corner is curved. 31. The method of claim 18, wherein: the layer of microwave interactive material is a first layer of microwave interactive material;the susceptor further comprises a second layer of microwave interactive material disposed on the marginal region of the support layer; andthe operating the microwave oven further exposes the second layer of microwave interactive material to microwave energy, causing the second layer of microwave interactive material to become heated. 32. The method of claim 31, wherein per unit area, the first layer of microwave interactive material is more absorbent of microwave energy than the second layer of microwave interactive material. 33. The method of claim 18, wherein the marginal region is free from microwave interactive material. 34. The method of claim 18, wherein the bottom panel has a planar configuration.
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이 특허에 인용된 특허 (57)
Neilson Zeng CA; Laurence Lai CA; Anthony Russell CA, Abuse-tolerant metallic packaging materials for microwave cooking.
Souder ; Jr. James J. (630 Archwood Ann Arbor MI 48103) Waldorf Lindsey E. (3888 Loch Alpine Drive Ann Arbor MI 48103), Container for inductively heating food.
Maynard Patrick L. (Combined Locks WI) Schmelzer Michael A. (Appleton WI) Pawlowski Thomas D. (Neenah WI), Control of microwave interactive heating by patterned deactivation.
Maynard Patrick L. (Combined Locks WI) Schmelzer Michael A. (Appleton WI) Pawlowski Thomas D. (Neenah WI) Hollenberg David H. (Neenah WI) Katz Leon (Stamford CT) VanHandel Gerald J. (Neenah WI), Control of microwave interactive heating by patterned deactivation.
Fredricks Richard E. (Appleton WI) Schmelzer Michael A. (Appleton WI), Metalized microwave interactive laminate and process for mechanically deactivating a selected area of microwave interact.
Wendt Dan J. (Lino Lakes MN) Kemske Jonathon D. (White Bear MN) Pesheck Peter S. (Brooklyn Center MN) Lentz Ronald R. (Plymount MN) Smith Sheryl L. (Minneapolis MN) Rosenwald Diane R. (Shoreview MN) , Method and apparatus for adjusting the temperature profile of food products during microwave heating.
Lai Lawrence (887 The Greenway Mississauga ; Ontario CAX L5G 1P7 ) Zeng Neilson (88 Mutual Street Toronto ; Ontario CAX M5B 2N3 ), Microwavable container with heating element having energy collecting loops.
Habeger ; Jr. Charles C. (Appleton WI) Pollart Kenneth A. (Mason OH) Josephy Karl (Los Angeles CA) Rettker James P. (Glenwood IL) Thomas Richard M. (Dyer IN), Microwave impedance matching film for microwave cooking.
Young Robert C. (329 E. 88 St. ; Apt. 4W New York NY 10028), Microwave susceptive reheating support with perforations enabling change of size and/or shape of the substrate.
Brandberg Lawrence C. (Minneapolis MN) Hanson Denise E. (Elk River MN) Watkins Jeffrey T. (St. Paul MN), Microwave susceptor with attenuator for heat control.
Matsuki Masaharu (Saga JPX) Yoshihara Toshiaki (Saga JPX) Kurita Sumihiko (Saga JPX), Microwave-absorptive heat-generating body and method for forming a heat-generating layer in a microwave-absorptive heat-.
Wendt Dan J. (Lino Lakes MN) Kemske Jonathon D. (New Brighton MN) Pesheck Peter S. (Brooklyn Center MN), Susceptor in combination with grid for microwave oven package.
Kemske Jonathon D. (New Brighton MN) Consaul James R. (Plymouth MN) Rosenwald Diane R. (Shoreview MN) Shomo ; Jr. Robert B. (Circle Pines MN) Wendt Dan J. (Lino Lakes MN), Susceptors having disrupted regions for differential heating in a microwave oven.
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