CA2113812A1 - Metal container and use thereof in a microwave oven - Google Patents

Abstract

A metal container (10) which can be utilized in a microwave oven has an interior (11) and an exterior (12) defined by a bottom (1) and at least one side wall (2). Each side wall (2) has a height which does not exceed 40 % of the wavelength of the microwave radiation. The container (10) is adapted to receive an object into its interior (11) through an open top (9). Microwave-transparent electrical insulation (3) is disposed on each side wall (2) and on that part of the bottom (1) which would, in the absence of insulation (4), contact the floor of the oven. This microwave transparent electrical insulation (3) may be a coating on the metal, a label, or a sleeve placed around the container (10). A microwave transparent, electrically-insulating cap (6) is removably disposed at the top (9) of the container (10). The top (9) of the container (10) also may have a removable seal (5) disposed thereon. Also, a method for storing an object, then subjecting the object to microwave radiation is also disclosed.

Description

W ~ 3/23971 Pcr/US93/04791 ?~ 3~2 ~ s METAL CONTAINER AND USE THEREOF : :
IN A MICROWAVE OVEN . ~ .. ~, , BACKGROUND OF THE INVENTION
1. Fleld o~ Invention :
This invention relat~ to a metal container which can be used in a microwa~e oven. In particular, the invention relates to a metal container which is electrically insulated trom the oven and other ob3ects tlherein. The invention also relates to a method tor heating an ob~ect in a metal container in a microwave oven, and to a method for storing an ob~ect in a metal contalner, then irradiating the object and the cont~ner with microwa~re radiation without damaging the power tube ot the~ oven.

2. DescriPtion of Related Art Use ot microwave energy to heat ob3ects is a well-accepted practlce. In particular, the heating ot food in a microwave oven, both . ~:
to cook and to ra~se the temperature of previously-cooked food ~or ;
consumption, is widely accepted by consumers for use in the home.
Us~ o~ a microwaYe oven in the home no longer is a novelty. Indeed, many~produots now are packagedspecUlcally to providee Seo1 usein a microwave o~en. Also, microwave: ovens often are placed ir~
ærvice" vending areas, alrording one the opportunity to obtain a ::
hot m~ ror example, a pub~c~ve area, in the a~nce o~ an attënded ldtchen. ~Rather, a~ product purc~ased Irom, ~e.g.,: a vendlng machine, can be heated ln a~m~crowave oven to provtde a hot meal.
ob~iect to be heated ln a m~crowa~e oven o~ten is placed in a container.~ ~ For e~tample, a contalne~ ::necessary to retaln objects -~

which are or become Iluid, such ? SOUp6 and sauc~, and to preclude Ceposltlon Or resldue resulting from plae~ng the:ob~ect dlrectl~ on the :

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' ~ .- ~ :

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WO 93/23971 ~ 1 ~ 3 8 ~ 2 - 2 - Pcr/uss3/o47sl ,~
' ' bottom, or floor, o~ the oven. Fur~her, objects res~ing direc~ly on the floor of a microwave oven typically do not heat uniformly because the standing wave pattern within the oven is not uni~orm in areas adja-cent oven boundaries. -Containers made ~rom various materials are suitable for use-in a microwave oven. Pape~based products, such as paper towels, na~
kins, paper platest cardboard containers, and wax paper, commonly are utillzed in a microwave oven. Certain plastlc, ceramic, and glass products also are utilized as materials of construction ~or such con-tainers. Typically, suitable paper, plastic, ceramic, and glass products neither absorb nor reflect microwa~e energy. Rather, these products are transparent to the energy. Therefore, energy is not utilized to heat the container. Rather, the energy is absorbed by the object and heats the ob~ect in the container.
Containers which absorb microwave radiation may not be suit-able tor use ln a mierowave oven. Obviously, it would be undesirable iI energy absorbed by the container caused the container to melt or otherwise suffer damage. For example, many plastics absorb micr~
wave energy, and would be de~ormed when expo6ed to microwave p radiation. Similarly, a container made rrOm microwave-eransparent material, upon which is applied material which al#;orbs microwave energy, lllcely wlll be unevenly heated. Under such conditions, mate-rialC will experience thermal stress an~ may crack.
However, absorption oi energy by the container may not be deleterious or unde~rable, depending upon the ob~ect to be achieved thereby. I~ it is desired to use the high temperature of the container to impart a particular property to the ob~ece being heated, for exam-ple, to brown the s~ace o~ rood or to main~ain the thus-heated obpt at an elevated temperatu~e, an ~ncrease in the temp~rature or the container is ~ot deleterious.
Use o~ metal ln a microwave oven is gaining acçeptance, but onlg under limited ~onditions. Bare metal can reflect the electroma~
netic energy toward the power tube (magnetron) and damage it. Also, bare metal can cause ar¢ing between the container and other metal ob~ec~s in the oven, in~luding the oven walls. Although modern W~93~23971 _ 3 _ PCI~/US93/04791 1.3~3l2 microwave ovens typically are designed to minimize damage by retlected microwavesy both reflection o~ microwaves and areing pref-erably are minimiæd.
One example o~ an acceptable use o~ metal in a microwave oven is the use o~ a small quantity of metal, often alumin~um, as a shield ~or a portion o~ the ob~ect being heated. For example, metal (aluminlum) ~o~ can be wrapped around the wings or the legs of lowl, or the end ot a roast, be~ng heated in a microwave oves~ to prevent absorption of a dlsproportionate amount o~ energy so that thus-pr~
tected parts are not overhea~ed while the remainder of the object is heated. ~n such uses, the mass of the metal is small compared to the mass ol the ob~ect be~ng heated. Further, care must be exercised to ensure that the metal is smoothly shaped to prevent arcing.
It has been suggested that ~oods in containers transparent to microwaves w311 heat more quickly when irradiated with microwave energy i~ a sheet o~ alumlnium foil Is placed on the top o~ th~ food.
The fo~ is said to dir~t microwaves to the bottom oY the dish whi~h helps the iood simmer more quiclsly and evenly. Even though modern microwave ovens are designed to limit damage ~rom retlected energy, use o~ metal in such a ~ashion should be limited so that the potential for causlng damage to the power tube is reduced. In accordance with the suggestion, the aluminium 20il ~s to be 'normal-weight', rather than Iheavy~uty~, and lt must be covered with plastlo wrap to mini-mize spar~dng.
A region o~ microwav~re~lective maeerlal. may be arranged on a container made ~rom microwav~transparent material, such as paper, paperboard, ~rdboard, or glass. Such reflective regions may be utillzed to ~eld ~e content of the conta~ner, in whole or in part, ~som ele~tromagne~c energy. Such a container is disclosed in US
.. .. . . ..
Patent NoO ~,703,149. In contrast, a region formed o~ ~errite mater~
~s heated by absorptlon o~ microwave energy until the tempera~Ore of the material reaches the Curie temperature, above which the mat~
rial cP~Pc to absorb mlcrowave energy. Other microwave-absorptive ~ ~
material disposed on a microwav~ransparent container also is ~ ~ -heated by m~crowave irradiation. Thus, at least in part, heat is WO 93/23971 w 1 1 3 8 1 2 4 Pcr/US93tO4791 f~

imparted to the object by conductlon ~rom the heated microwav~
absorptive area. Such hea~ing often ~s used to provide a ~Ibrowninglt eI~ect to Iood in the container. A container having a microwav~
absorptive sur~ace ~ormed by a very thin layer ot aluminium is dis-closed in US Patent No. 4,641,0û5. As disclosed in the pat~nt, although aluminium and other electrically conductive elemental met-als typically do not absorb microwave energy, a very thin layer thereor (about 700 angstroms ~or aluminium) does absorb microwave energy and becomes heated.
Metal containers which are coated to be sl~itable for use in a microwave oven are dis~losed in US Patents No. 4,558,i98 and 4,560,8SO. The patents disclose ~o~ criteria which must be satisfied to make a metal ~ontainer sultable ~or use in a microwave oven. Both interior ~md e2terior surIaces must be coated with microwav~absor~
ing material, which is sald to preclude potentially deleterious reflec-tion o~ ~lectromagnetlc energy back to the power tube. In addition to these coatings and covering, the shape o~ the container is strictly controlle~. The side walls must be smoothly curved and free of wrin-kles. Further, the height ot the side walls ~s limited ~o about ~3 milll-meters. The shallow strucnlre is said to minimize side wall height and reduce microwaYe reflection, allowlng more energy to flow into the food and distrlbute heat more ~venly. Importantly, each corner ha~ a "generous" ra~ius ot curva~ure (about 7/8-inch). The top of the con-tainer is pro~rided with a smoothly-~urved bead having a diameter of about l/8-in~h. ~his diameter neither promotes arc~g nor cracks or breaks the organic coating. However, a heat-resistant, electrically-insulating,~microwav~transparent plastic lid covers the outermost edges at the top o~ the contalner to physically separate and electri-cally insulate these edges ~rom the wall of the oven and trom other containers in the oven. The lid also serves to trap steam within the container, thus provi~ng additional heating of the object in the container. - - - ~
In US 4,558,198, although the coating material is described solely as microwav~fusing, the claims are directed to a coating which is ~heat-resistan~, electrically insulating plastio . . . ~eing W~-9~3/23971 ~ 3 81 ~

egfe~tlve to difuse ... microwave energy ....~ Thus, the pa~ent di~closes two types oI coatings tor the ou~de of the container; one which only d~fuses microwave energy, and one which both diftuses microwave energy and insulates electrically.
The conta~ner dlsclosed in US 4,560,850 is similar in shape to the container disclo6ed in the '198 patent. In addition to the criteria ('generous radii') relating generally to the shape ot the contalner, the '850 patent discloses tormation ot a 'steam port' in a raised portlon ot the bottom ot the container. Thls port both allows steam to escape trom the container and directs the tlow o~ thus-escaped steam to the bottom ot the container to provide additional heat thereto. All sur-~a~es ot this container are coated with material which d~uses micro-waves, but electrical insulation capability is not required o~ thls coating.
The tendency ot a metal container in a microwave ov~n to arc is said leo be reduced by torming the metal portion o~ the container in accordalnce ~rith the disclosure o~ U.S. 4,851,631. This paten~
cla6es that resonance in the metal part of a container causes delete~-ous effects, including arcing, localized overheating, scorching of food or non~metalllc portions of the contaiqer, overheating o~ food near the edge ot th~ metal, and slmilar problems. According to the paten~
dlsclosure, resonance can be reduced by avoldlng use o~ metal portions ha~rlng d1menslons which exacerbate resonance and by rormirlg the metal portlons to reduce ~esonance ~rcluding, inter alia, overlapping the ends oI metal portior~; of the container to creaee capacitance therein.
- - ~ U se of metal containers in a microwave oven has heretofore b~ llmited. Although many microwave-tra~sparent contalners have en developed, such ~ontainers are oiten relatively costly or are otherwise unsultable ~or selected uses. For example, paper containers otten are not sutticiently sturdy and do not pro~de appropriate vapor ba~er propertles tor use as containers Ior tood products. Thusg not only is ~t dlftlcult to ensure continuing Integrity ot the container, but also molst products are sub~ect to dehydration. Glass and ceramic containers are strong and resistant to fluids, but are sub~ect tO

W O 93/23971 ~ ~ ~ 3 8 ~ 2 - 6 - PC~r~US93/04791 breakage. Other microwav~transparent materialC, such æ plastic, o~ten meet ob~ections based on environmental considerations. Also, it is di~Iicult and relatively expensive to provide a tamper-resis~ant plastlc seal which is retortable, as typically is required by food processors. ^
SUMMARY OF THE INVENlION ' Thls invention relates to a metal con~ainer which can be uti-lized ln a microwave oven and has an interlor and an exterior defined by a bottom and at least one side wa~l. Each slde waL~ has a height whlch does not exceed ~0 percent Or the wavelength oi the mic~
wave radiation uti~zed in the microwave oven. The container is adapted to receive an object into its interior through an open top.
Microwave-transparent, electrically-insulatlng material 1~ dis-posed on the exterior ol each side wall and on the exterior part oI the botto;n which would, in the absence of the lnsu~ation, contact the floor of the oven. The insulation prevents physical contact between the exterlor of the container and other object_ and essentially elimi-nates arcing. A microwav~trarLcparent, electrically-isLulating cap is removably ct~sposed at the top of the container. When disposed on the container, the cap prevents physical contact between parts ol the contalner not ph~sically isolatedl ~rom other ob~ects by the side wall electrlcal insulatlon. When the cap is removed trom the container, the ob~ect can bc inserted il~tO or removed ~rom the interior ot the container through the opening in the top thereot. The top ot the con-tainer also may have a removable seal clisposed thereon.
The physical characteristics (l.e., shape, diameter, height, and insulation), ot the container eæntially preclude metal-t~metal con-tact and mlnlmlze retlection ot microwaves. ~
- ~ ~ This inYention a1so relates to an economically-produced, - retortable metal container especlally suited tor tood storage and su~
sequent heating in a microwave oven. In particular, metal containers pr~vide excellent oxygen barrier propertles and are resistant to tampering.
The lnvention turther relates t9 a method tor heating an ob~ect in a metal container in a microwave oven and to a method ~or storing W~- 93/23971 ~ ~ 3 8 12 pcr/us93/o4791 an ob,iect, then subjecting the object to microwave radiation. The ob~ect to be hea~ed is placed in the metal contalner through the open-ing, the cap ~s placed over the opening, and the objece and container are exposed to microwave radiation ~or a time sufficient to hea~ the ob~ect. To store the ob~ect before heating, the objec~ is placed in the metal container and the container is removably sealed. The object then is stored in the container. To irradiate the ob~ect wlth micr~
waves, the seal is removed and the microwav~transparent, electricaLly-insulating cap is removably disposed over the opening resulting from removal of the seal. Then, the ob~ and container are irradiated with microwave radiation ~or a time sufflcient to heat the ob~ect.
13RE~ DESCRIPTION OF THE DRAWINGS
E~igure 1 is a plan view o~ a container made in accordance w~th this invention.
Flgure 2 ~s a botton view og a container made in accordance wlth thlls invention.
Figure 3 ~s a top view of a container made in accordance with this invention and which comprises a removable seal.
Pigure 4 is a partial plan view of a container of the invention with a removable cap in place over the opening at the top of the Qontalner.
Flgure S is a simpll~ied plan view of a container o~ the inven-tion which does not have a unitorm cross-section.
Figure 6 is a simplified plain view of a container comprising a domed bottom.
DETl~lLED DESCRIPrION
; ~ This inven~ion i directed ts a metal container whfch can be utllized in a mi~rowave oven. The;inYention also relates to a method for hea~lng an ob~ect in a metal container in a microwave oven, and to a method for storing an object in a metal ~ontainer, then irradia~-~ng the ob~ect and the container with microwave energy. It has been dlscoYered that metal containers are especially eff~lent and suitable for use in a mi¢rowave oven when they are electrically insulated from the oven and other ob~ects in the oven and are designed to allow wo 93/23971 ~ l l 3 8 ~ 2 PCl`/US93/04791 microwaYe energy to penetrate into the object being heated. Electri-cal insulation precludes arcing, which can damage the container, the oven, an~ in e~ctraordinary circumstances, the microwaYe power ~magnetron) tube.
Throughout the specification and claims, the term ~metal' com-prises microwav~reflective elemental metals and alloys, such as but not limited to aluminium, aluminium alloys, zinc-plated steel, tin-plated steel, and polymer-coated steel.
A metal container manufactured in accordance with the su~
ject invention can comprise any combination Or microwaYe-re~lectiYe elemental metals and alloys. A container o~ this invention which is intended to be cl~spo6ed a~ter one use, such as a container to be sold trom a vending oiachine, typically is manufactured from aluminium, aluminium alloys, and coatedsteel.
In the several embodiments shown, like reference numbers or letters are used to designate like portions in the several embodiments.
Referring In particular to Figures 1 and 2, the metal container of the invention 10 has an intefior 11 and an extefior 12 defined by a bottom 1 and at least one side wall 2. For example, if the cross~ection of the container is round, oval, or simllarly shaped, the side wall is con-tinuous and can be reIerred to as a single side wall. Such a container iS illustrated ln Fi~ures 1 and 2. However, lS the cross-section ol the container is not shaped so that a ~ontinuous side wall can deflne the container, the container then can be said to have a plurality o~ side walls. Further, the cross~ection of the container may change with distance trom the bottom. An example of such a container is ~Uus-trated in Flgure 5, wherein the bottom of the container is square, the top Or the contalner is round, and the cross~ection changes as the distance ~rom the bottom changes. Each non-horizontal wall 2 of such a container may be considered a side wall ~or the purposes of this specification and claims.
S~lled practitloners recognize that ~discon~inuities in contain-ers which are not microwave-transparent may cause arcing ~cause mic~owave radiatlon becomes concentrated at such intersections.
Such discontinu~ties occur, for example, at the intersection o~ the W(~ ~3/23971 - 9 - PCI~/US93/04791 bottom and a sid~ wall, and at the intersecnon of a plurality of side walls. Pre~erably, therefore, con~ainers manufactured in accordance with this lnven~ion are shaped to avoid such discorl~nuities, i.e., intersections o~ surfaces are formed Wittl rounded su~aces rather than angular intersections.
More preferably, the container o~ the inYention ~s round or oval in cross sesffon, as illustrated in Figures 1 and 2. Not only are such containers relatively easy to manufacture, but also the smoothly con-toured side wall minimizes the number OI discontinuities in contour which tend to cause deleterlous effects when exposed to microwave irradiation.
A container manufactured in accordance with the invention may be ot any cro~s-sectional shape. Slmilarly, it may be manufac-tured in accordance with methods known to skilled practitioners.
Pr~ferably, the portion of the container whlch is metal is formed Irom aluminum, aluminum alloy, or coated steel and is manu~
~actured in accordance with known containe~forming techniques.
For example, an aluminum or aluminium-alloy ~ontainer typically ~s ~ormed by die stamping, whereas a steel "tin" can typically is formed from a plurality of shaped parts which are ~ined by welding.
It has been discovered that ob~ects in a metal container can be sa~ely, e~fectively, and efficiently heated with mlcrowave energy i~
the container is electrically lnsulated and has wal~s which extend ver-tlcally less than about 40 percent o~ the wavelength o~ the microwave energy utiLlzed to heat the object. When the vertical height o~ the sides oS the metal container of the invention is less than about 40 percent of the wavelength of the microwave ener~y, a large ~raction ot the energy enters the interior of the container and is absorbed by the-ob~ect therein. Sldlled praetit~oners will realize that lf theverti- ;
~al height o~ the sides of a metal eontainer of the in~ention are higher than about 40 percent of the wavelength of the microwave energy, they Will requlre longer heating tlmes thaD metal ~ontainers having walls which extend vertically less than about 40 percent o~ the wavelength of the microwave energy.
: . , WO 93/23971 - 10 - P~r/US93/04791 ,~3 ~3`~12 A metal container according to the invention preferably has w~ which extend vertically less than about 3S% of the wavelength of the mi~rowave energy utilized tG heat the object. More preferably, the walls o~ a container manufactured in accordan~e with the inven-tion extend vertically less than about 30%, and most preferably, less than about 25%, ot tha microwave energy utilized to heat the object.
Where a plurality of side wall surfaces e~st in a vertical line V, as illustrated ln Figures S and 6, the height El of the side walls is determined by measuring the d~stance the combination or side walls e~tends vertically away from the bottom. The height oI the domed regton ~s indicated by reference letter B. The dome should be designed to prevent metal-to-metal contact between the container and the oven, and to permit the object to be evenly heated. Ski~led practitioners will ~e able, with the guidelines presented herein, to design a suitable conta~ner.
Typically, the frequency oi microwave radiation utilized in microwave ovens made for use in the home operate at a frequency of 2450 MHz. However, use of 915 MHz, 5800 MHz, 22,125 MHz, and other frequencies is authorized. Thus, the size of containers suitable tor use in these ovens varies.
As slcilled practltioners recognize, the wavelength of micro-wave radlatlon is calculated by dtvlding the speed ot the radiation, t.e., 3X108 meters per second, by the trequency~ Thus, tor example, the wavelength ot microwave radiation having a frequency of 2450 M~Iz Is about 122 mm. Thus, the height ot a container to be utilized in a typical microwave oven which operates at 2450 MHz is prefera~ly less than about 48.8 mm. Preferably, the height of a container to be utillzed in a typlcal microwave overl which operates at 2450 Mllz is less tharl about 42.7 mm. More preferably, the height of a container is less than about 36.6 mm, and most preterably, less than about 30.5 mm.
Although there is no minimum side wall height ~or a ~ontainer ma~ufactured ln accordance with this invention, skilled practitioners recognize that an extremPly shallow container, i.e., one having side walls which are less than about 8 mm, may haYe limited usetulness.

Wf~ 93/23971 ~ 3 8 1 2 Pcr/us93/o47 Although such a shallow container otten ls difficult to handle, espe-clally when I~ed wlth a fluid material, such containers are contem-plated wlthin the scope o~ this inventlon.
The pre~erred shape o~ the bo~tom of the container depends upon the ob~ect to be heated ~herein. If the objec~ tends to retaid its shape during heating (for example, a plece of meat), the bottom can be essentially planar. However, ~or most foodstuf~s and other objects which do not essentially retain their shape, it is preSerable not to utilize a planar bottom. Rather, under such circumstances, the bot-tom preferably is raised slightly, or 'domed~, at the center of the con-ta~er, as illustrated in Figure 1 and Flgure 6. Skilled practitioners recognize that, under appropriate circumstances as described herein, a domed shape not only improves the distribution Or microwave energy within the object being heated, but also dlstributes the object being healted within the container. Each aspect aids even distribution of heat ~ithin the object. However, such a teature ~s less useful if the object does not con~orm to the sha~3e of the bottom. Although distribution ot the object within the container will not be affected, distribution of microwave energy into the object itsel~ will be lmproved.
The container is shaped so that the ob~ect to be heated can be lnserted lnto the container through an opening in the top Or the con-tainer. It should be noted tha~ use of the words 'top~ and 'bottom' in the specification and claims relates to the orienta~on o~ the con-tainer as lt typically would be used in accordance with this invention.
For example, an ob~ect lying on a surface (su~h as a conveyor belt) could be lr~serted into a containèr by placing the container over the ob~ect, then inverting the container and sur~ace. Such a loading oper-ation is contemplated within thls invention. -~
Wlthout regard to how the ob~ect is loaded into the container,care~ must be taken in designing a container which will attord the opportun~ty to impinge microwave radlation into the ob~ect. For example, essentially surrounding the ob~e~t with microwave-re~lec-tive material would preclude microwave radiation ~rom impinging upon and heating the object. There~ore, the top opening o~ a ~"''' WO 93/23971 2 ~13 8 i. 2 pcr/uss3/o4791 ~

container o~ the invention provides an opening suffic~ent to afford microwave egress to the object. TypicallyO ~herefore, the opening is ae least about 50 percent of ~he area o~ the boteom. Preferably the area ot the opening is at least about 75 percent, and more preferably is at least about 100% per~ent of the area of the bottom. It has ~een discovered that top opening area of at least 75 percent oS bottom area is preterred to ensure that "convenience ~oods~1 heat sufficiently quickly.
Further, the diameter o~ the top opening preferably Is at least as large as the wavelength ot the microwave energy util~zed to heat the ob~ect in the container. Thus, for a typical oven utilized by con-sumers, which operates at a frequency of 2450 MHz, the opening at the top ot the can preferably has at least one dimension of at least about 122 mm. More preferably, the opening at the top of the con-tainer has a dimension larger than the wavelength oî the microwave radiation. Openings smaller than the microwaYe wavelength, although contemplated ~nthin this invention, reduce the effectiveness ot the container as a microwaveable container because the heating time increases exponentially as the dimensions oi the top opening are decreased to less than the microwave wavelength. A skilled practi-tioner wUl be able, with the guidelines presented herein, to design a sultable contalner.
Re2erring again to Figures 1 aQd 2, microwave transparent electrical insulation 3 is disposed on each side wall 2 and microwave transparent electrical insulation ~ is disposed on at least that portion of the bottom 1 which would, in the a~sence of the electri~ nsula-tion contact the ~loor ot the oven. This insulation essentially elimi-nates the likelihood of arcing ~om the electrically conductive mate-rial forming the side walls and bottom of the containe~ by electrlcally insulating them.- Such ir.sulation not only physically prevents contact between the container and both the floor o~ the oven and other ob~ects in the oven! but also ~orms an ele~trically non-conductive barrier whlch essentially eliminates arcing between the electrically conductive side walls and bottom oI the container and the floor and other objects in the oven.

", W~3/23971 - 13- ~ Pcr/US93/04791 ~ ~3~
It has been d~scovered that use of a container comprising a signitlcant quantity of metal tn a mi~rowaYe oven is not deleterious to the oven lt the container not only is covered with a quantity of electrically non-conductive ma~erial sulficien~ to ensure that arcing ~s essentially eliminated but also is designed so that a significan~ ~ra~
tion of the microw~ve energy is absorbed by the ob~ect being heated.
A container properly designed as disclosed herein also shortens cook-ing time.
Any microwave-transparent, electrically-insulating material is suitable ~or use as metal-covering material ln accordance wlth the invention. Examples o~ such material lncludes cardboard: ceramics:
selected plastics such as polystyrene, polypropylene, and polyethyl-ene; and selected glasses, such as soda glass and potash glass.
Suitable insulating material can be applied directly to the con-tainer, e.g., in the ~orm of a polymeric or ceramic tilm. In the alter-native, a separate label which ~omprises the insulating materlal suit-ably is applied to the eontainer. Both materials can be utilized simuleansously~
A partic~larly preferred insulating mater~al is comprised o~ an expanded pol~styrene la~el designed to shrink around the bottom of the contalner. The insulating material applied to the sides may difIer ~rom or be the same as the insulatlng material applied to the bottom.
Further, the insulating material may be ~ormed as one piece or a plu-rallty o~ pieces. Eaeh piece may protect both a portlon of the slde wall and a portion of the bottom.
The insulating material also may be selected based on a ~urther ad~rantage deslred. For example, a foamed polystyrene material, commo~ly called 's~roam', is a suitable insulatioll material. A fu~
thér ~advarltage o~ using ~oamed polystyrene materlal is that such material also is thermally insulating. There~ore, a ~ontainer coated ~th toamed polystyrene material not ody thermally insulates the ob~e~t~and container against heat loss to the surroundings, but also protects the person removing the potentially hot ~ontalner ~rom the oven a~ter heating. Foamed polystyrene has the ~urther ad~antage of . .' , ~''' "

WO93/23971 - 14 - PCI~/US93/04791 ~3~12 being relatively lnexpensiYe, durable~ a~tractive, and receptive to printing and decoration.
The elect~ically insulatlng material need not ~e either microwave di~fusing or microwav~dispersing, nor is the material disposed on both the interior and the exterior o~ the container of the inven~ion. Skllled practitioners will be able, with the guidance pro~
vided herein, to insulate the container in accordance with the invention.
Business considerations such as cost, availability, durability, and appearance may enter into the selection ot the material for each particular use. For example, a container which is intended tor re-use mlght have a more durable insulatlng ~oatlng, whereas a container intended to be d~scarded atter one use might use a less~urable insula-tion mat~rial, su~h as polystyrene.
The top of the container can be adapted to receive a removable seal. The pu~pose oi this seal is to ensure that the cond~tion ot an object stored in the container remains unchanged. Such a removable seal is e;pecially important if the object ~s a foodstuff, because the purity of ~oodstuI~s must be maintained. ~he remo~rable seal may be tashioned 2rom any suitable material. Just as selection d material from whlch the microwav~transparent, electrical lnsulation typically ls based on economic and other ra¢tors, so too is selection o~ the material trom whloh the removable seal is manuiactured.
A seal on a container ~or ~oods~rs o~ten is required to wlth-stand conditions under which food is retorted in preparation for stor-age. A pre~erred embodiment o~ such a sea~ is illustrated in Figure 3.
As illtstrated therein, removable sea:l 5 is ~ixed to side wall 2 (not shown) by seal attachment 8. Seal a~tachmerlt 8 comprises seal attachment rln~ 8A and seal ring 8B. ~Speci~ically, a preterred embod-imen~ or removable seal S comprise~ a "~ft-and-pull" top, i.e., a rela-tively thin d~sc of relatlvely soft metal, typically aluminium or an alloy thereof, which is sco~ between remo~rable seal S and seal ring 8B in the ~orm of the intended opening. Tl~s scoring in the shape of the intended opening is identified at 9 ln Figure 3. A 'pull-tab' P is attached to the disc near the scoring. When this 'pull-tab' is li2ted, a - ~ ~

Wl' 43/23971 - 15 - P~r/VS93/0479~

3 ~ ~ 2 port~on o~ the scored area is broken through and the seal is breached.
Then, the remainder o~ the scored area which defines the removable seal can ~e broken through by ll~t~ng the pull-tab away from the top ot the container.
All-metal embodiments of the removable seal typically are utilized because they are rellabie, can withstand conditions under which foodstu~s are retorted or othe~wise treated to prepare them tor storage in such containers, and are easy to remove. However, other embodiments and other materials o~ constructlon suitably are used to torm a removable seal. For example, a screw-type cap can be utilized, and retortable plastic removable seals are known in the art.
A microwave-traDsparent, electrically-insulating cap is remov-ably disposed at the top o~ the container. As i~lustrated in Figure 4, removablle cap 6 has a shape which matches 2nd mates with th~ shape ot the top of the container. In the embodiment illustrated, seal attachment ring 8~ also retains the removable cap over the opening.
When disposed on the container, the cap prevents physical contact between parts of the container not physically isolated from another object in the microwave oven by the side wall and bottom electrical insulators. When the cap is removed from the container, the object can be lnserted lnto or remoYed rrom the interior o~ the container through the opening in the top of the container.
It has been dls¢overed that it ls not necessary to erwre that the surtace at the top ot the container where the side wall enc~; com-prises a 'generous radiusl. Indeed, seal attachment ring 8~ in a pre-terred embodiment ot the container o~ the invention is a known, tormed edge whi~h is not rounded. It has bes~ discosrered that the ~electrically-lnsulating cap is su~ficient to prevent arcing.
- - The cap~ ~ca n be made trom any microwave-transparent, - -el~ctrically-insulating materlal. The materials from which the side wall and bottom insulatioA are made are suitable ~or use in manufac-turing the cap. The oap typically extends sl~ghtly over the side wall insulation to essent~ally preclude arcing from any electrically conduc~
tive material which is not covered by the side wall insulating ma~erial ~ -when the sap ~s dispo6ed over the opening in the top o~ the container. ~ ~

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. ' WO93/23971 - 16 - Pcr/uss3/o479~
2~13812 ~
As is best illustrated in Figure 4, cap 6 preferably is per~orated, as at 7, to aLlow heated gases and vapors to escape Irom the con-tainer. Skilled practltioners recogniz0 that such venting typically is nece~sary ~o avoid excesslve pressure buildup in the container. Thus, without such venting, the container being heated may explode, or the cap may be displaced from the top of the container by the e~panding gas and collection of vapor between the unperfora~ed cap and the ob~ect.
The number and dimension ot perforatlons can be determined in accordance with the requirement of the use to which the container is put. For example, to retain moisture within the object being heated, periorations should be sized with the minimum area necessary to afford escape ot d sufficient quantity ot gases and vapors to avoid over-pressurization. Typically, a single perforation having a diameter oI 4 mm is suIIicient to vent steam llberated from an 8-ounce food serving. Preferably, at least two such perforations are utilized to ensure t~lat pressure does not build up in the con~ainer during heating of ~he object therein. Similarly, to evaporate moisture, as when con-centrating a Iluid or allowing water, e.g., water oI reaction, to escape from the container, the number and dimension of periorations will be relatively large, A skilled practitioner, wlth the guidance provided herein, wlll be able to design a cap suitable for the intended use.
Any manner o~ disposing the removable cap so that it can be disposed over the opening at the top of the container, or removed therefrom so that the ob~ect can be removed from or inserted into the ~ontainer, may be utilized on a container manuf actured in accordance wlth tl~s invention. For example, the cap can be hingedly flxed to the container. The cap can be hinged to a band ot material which extends around the side walls below the opening at the top o~ the con-tainer, or to the side wall itsel~. Simllarly, the cap can screw onto or sDap over the top o~ the container. Similarly, the removable seal can be screwed onto the container, and the removable cap carl uti~lze the same threads arter the removable seal has been removed. Any man-ner or attaching the cap which ensures that the cap can be disposed over the opening or removed thereîrom and that no Wf~ 93/23971 - 17 ~ ~71 ~ 3 81'~? PCr/US93/0479 electrlcally conductive parts are, become, or remain electrically uninsulated; such unlnsulated parts may induce arciQg.
The ~ontainer o~ the inventlon is used to ~ontain an ob~ece to - be heated in a microwave oven. The objeet is placed in the contairler through opening 9 ~lustrated in Figures 1 and 3. Mlcrowave-trans-parentl electri~ally-insulating cap 6 is disposed over the opening at the top or the container. Then, the ob~ect and the container are placed in a microwave oven and are irradiated with microwave energy for a tlme su~flcient to heat the object. Wlth the cap in place and the s~dewalls and bottom electrically insulated, the object is satis~actorily heated in the container wlthout damagin~ the power (magnetron) tube by impinging racllation reflected trom the electrically conductlve con-tainer. In particular, in ac~ordance with the container o~ the inven-tion, the! shape of the container, and consequently, the shape of the microwav~absorbing component (i.e., the ob~ect to ~e heated), mlni-mizes the amount o~ reflected radiation which might impinge upon the magnetron and maximizes the amount of radiation delivered to the ob~ect being heated.
When fltted with a removable seal, the container described and elaimed herein is suitable ~or storage ot an ob~ect, then exposing the ob~ect to microwave radiatlon. The ob~ect is placed In the container through openlng 9, 8S shown ln Figures l and 3. Then, a removable seal is ~ltted over opening 9 and sealed to side wall 2 at seal attach~
ment ring 8~. The ob~ect then is stored. It the object is a ~oodstu~f, it may be desired to treat the ob~ect and the contaisaer to ensure wholesomeness of product throughout the storage period. Such treat-ment may take the form, for example, of pasteurization, or similar treatment in a retort or other heating devi~
~ ~ When the stored ob~ect is to be exposed to microwave radla~
tion, the removable seal typlcally is removed, and the microwav~
transparent, electrically-insulating cap is dispo6ed over the opedng at the top ot the ~ontainer. The obkct and the container then are irradiatèd with microwave energy or a tlme su~ficient to heat the obJec~. With the cap in place and ti e sidewails and bottom W093/23971 - 18- Pcr/US93/047~1 $~
~1~3~,12 electrically ins~ated, the object is satisfactorily heated ln the con-tainer without produc~ng arcing.
Skilled practitloners recognize that range~ o~ ~ime required to heat an ob~ect cannot always be sugges~ed because ~here e~dst many variables whlch al~ect the calculation o~ the proper heating time.
Some Or these variables are easily measured (mass, dielectric con-stant, thermal conductivity), whereas others, such as the efficiency by which the ob~ect absorbs microwav~ energy withill the conflnes of the metal container, are more difficult. Each o~ these variables is an important consideration which renders it impractical to set torth a heating time. However, s~dlled practitioners wlll be able, wlth the guldance provided herein, to determine the appropriate treatment period.
Witlh regard to heating of foo~tufts, it is pre~erred that the time required to heat the food not exceed about 5 to 10 minute~..
More preferably, between about 3 to 5 minutes is. sufi'icient to heat a single ser~iing ot l'ood.
Further, use of a metal container ior heating foodstu~'fs with microwave radiation is particularly convenient. In addition to the economlc and packagtng benetits described herein, the metal con-tainer oi the invention provides a method tor heating ioodstufl's with-out l'bumping." As skilled practitioners recognize, "bumplng" is the phenomenon ma~iiested by sudden and violent vaporization ot water due to ~oods being heated too rapidly. Bumping may cause the con-tainer to tip. Normally, plastic containers provide very tast heating o~ the surface layers whlle the center remai~s relatively cold. Thus, products heated in plastic containers tefld not to be heated unitormly, leading to poor quality. The longer heating tlmes associated with the use ot metal containe~s theretore is an advantage not only in produ t quality, but also in reducing or eliminatlng bumpiQg.
E.X~PLES
- ~
ExamQe 1 Four soup products and two conventional l'ood products were heated in a 401 x 105 size aluminum 2-piece container using a 700 watt microwave oven haYing a wavelength ol' 2450 MHz. The cans W~3/23971 ~ ~ 3 8 ~ 2 pcr/us93/o4791 were fllled wlth chicken stew, tomato soup, ~ean with bacon soup, and chicken noodle soup and then sealed with a plastic vented cap. A
styroioam label was app~ed around the containers ac the microwave eransparent, electrically-insulating material. A serving-size piece of cl~cken, and bean soup also were placed in separate containers having applied thereto a styrofoam label, and then sealed wlth a plastic cap.
Each container wæ separately heated ln the microwave oven for the period of time indicated in Table 1. Temperatures of the heated prod-ucts were taken at various positions about the containers and are indi-~ated in Table 1.
Experiment 1 was carried out using an unYented cap and was heated for 2 minutes. Experiment 2 utilized a vented cap on the same container used in Experiment 1, and the product wæ heated for an additional two minutes bringing the total heating time to 4 minutes.

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As can be seen ~rom the above table, conventional soups can be evenly heated ln a conventlonal microwave oven using the con- :
tainers o~ the pr~sent inventlon.
Although preterred embodlments o~ the lnventlon have been disclosed herein, those skilled in the art will appreciate that changes and modilications may be made without departlng from the spirit o~ . :
tl~s invention, as derined in and limited onl~ by the scope Or the appended cla~ms.

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Claims (11)

AMENDED CLAIMS
[received by the International Bureau on 30 September 1993 (30.09.93);
original claims 1-11 replaced by amended claims 1-11 (2 pages)]

1. An apparatus in which an object is heated with microwave radiation comprising:
(a) a metal container having an interior and an exterior defined by a bottom and at least one side wall and adapted to receive the object into the interior of the container through an open top, each of said at least one side wall having a height less than about 40 percent of the wavelength of the microwave radiation;
(b) microwave transparent bottom and side wall electrical insulator means for electrically insulating the exterior of the container by preventing physical contact between the exterior of the metal container and other objects, said insulator means being disposed on each of said at least one side wall and on that part of the bottom which, in the absence of said insulator means, would contact the floor of the oven;
(c) microwave transparent electrically insulating cap means for preventing physical contact between any part of the top of the container not physically isolated from other objects by the side wall insulator when said electrically insulating cap means is disposed over the top of the container, said cap means being removably disposed at the top of the container to allow insertion of the object into or removal of the object from the interior of the container when the cap means is removed from the container.

2. The apparatus of claim 1, further comprising means for removably sealing the object into the container.

3. A method for heating an object by microwave radiation comprising:
(a) placing the object to be heated in a metal container having an interior and an exterior defined by a bottom and at least one side wall and adapted to receive the object into the interior of the container through an open top, each of said at least one side wall having a height less than about 40 percent of the wavelength of the microwave radiation and having a microwave transparent bottom and side wall electrical insulator means for electrically insulating the exterior of the container by preventing physical contact between the exterior of the metal container and other objects, said insulator means being disposed on each of said at least one side wall and on that part of the bottom which, in the absence of said insulator means, would contact the floor of the oven;
(b) disposing a microwave transparent electrically insulating cap means on the top of the container, said insulating cap means preventing physicalcontact between any part of the top of the container not physically isolated from other objects by the side wall insulator when said electrically insulating cap means is disposed over the top of the container; and (c) irradiating the object in the container with microwaves for a time sufficient to heat the object.

4. A method of storing an object and subsequently heating the object by microwave radiation comprising:
(a) placing the object to be stored in a metal container comprising having an interior and an exterior defined by a bottom and at least one side wall and adapted to receive the object into the interior of the container through an open top, each of said at least one side wall having a height less than about 40 percent of the wavelength of the microwave radiation; microwave transparent bottom and side wall electrical insulator means for electrically insulating the exterior of the container by preventing physical contact between the exterior of the metal container and other objects, said insulator means being disposed on each of said at least one side wall and on that part of the bottom which, in the absence of said insulator means, would contact the floor of the oven; and sealing the container with removable seal means;
(b) storing the object in the container until ready to heat the stored object;
(c) removing the seal means from the container;
(d) disposing a microwave transparent electrically insulating cap means on the top of the container, said insulating cap means preventing physicalcontact between any part of the top of the container not physically isolated from other objects by the side wall insulator when said electrically insulating cap means is disposed over the top of the container; and (e) irradiating the object in the container with microwaves for a time sufficient to heat the object.

5. The apparatus of claim 1 in which the bottom of the container is domed into the interior.

6. The apparatus of claim 1 in which said at least one side wall is angled outwardly from the interior.

7. The apparatus of claim 2 in which said removable insulating cap means is removably disposed over said means for removably sealing the object into the container.

8. The apparatus of claim 1 wherein said microwave transparent means comprises a coating on the metal container.

9. The apparatus of claim 1 wherein said microwave transparent electrical insulator means comprises an electrically insulating label positioned on the metal container.

10. The apparatus of claim 1 wherein said at least one side wall has [side walls have] a height less than about 30 percent of the wavelength of the microwave radiation.

11. The apparatus of claim 1 wherein said at least one side wall has a height less that about 25 percent of the wavelength of the microwave radiation.