AU682876B2 - Apparatus and method for uniformly cooking food with asymmetrically placed radiant energy sources - Google Patents

Apparatus and method for uniformly cooking food with asymmetrically placed radiant energy sources Download PDF

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Publication number
AU682876B2
AU682876B2 AU69177/94A AU6917794A AU682876B2 AU 682876 B2 AU682876 B2 AU 682876B2 AU 69177/94 A AU69177/94 A AU 69177/94A AU 6917794 A AU6917794 A AU 6917794A AU 682876 B2 AU682876 B2 AU 682876B2
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lamps
plane
food support
parallel
lamp
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AU6917794A (en
Inventor
William H Sehestedt
Eugene R. Westerberg
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Quadlux Inc
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Quadlux Inc
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    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05BELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
    • H05B6/00Heating by electric, magnetic or electromagnetic fields
    • H05B6/64Heating using microwaves
    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05BELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
    • H05B3/00Ohmic-resistance heating
    • H05B3/40Heating elements having the shape of rods or tubes
    • H05B3/42Heating elements having the shape of rods or tubes non-flexible
    • H05B3/44Heating elements having the shape of rods or tubes non-flexible heating conductor arranged within rods or tubes of insulating material
    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05BELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
    • H05B3/00Ohmic-resistance heating
    • H05B3/0033Heating devices using lamps
    • H05B3/0071Heating devices using lamps for domestic applications
    • H05B3/0076Heating devices using lamps for domestic applications for cooking, e.g. in ovens

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  • Physics & Mathematics (AREA)
  • Electromagnetism (AREA)
  • Electric Stoves And Ranges (AREA)
  • Electric Ovens (AREA)
  • Baking, Grill, Roasting (AREA)
  • General Preparation And Processing Of Foods (AREA)
  • Vending Machines For Individual Products (AREA)
  • Cookers (AREA)

Abstract

An oven for cooking with light having wavelengths in the visible, near visible, and infra-red spectral ranges uses one or more quartz halogen tungsten lamps or quartz arc bulbs positioned above and below the food item. Uniform cooking of the food item is achieved by positioning the lamps asymmetrically with respect to the midline of the oven and by rotating the food item on a rack during the cooking cycle.

Description

WO 94/28692 PCTUS94/05753 -1- APPARATUS AND METHOD FOR UNIFORMLY COOKING FOOD WITH ASYMMETRICALLY PLACED RADIANT ENERGY SOURCES Related ApDlications This application is a continuation-in-part of application serial No. 07/738,207, filed July 30, 1991 which was a continuation-in-part of application serial No. 07/350,024, filed May 12, 1989, now U.S. Patent 5,036,179 which was in turn a continuation-in-part of application serial No. 07/195,967, filed May 19, 1988, now abandoned.
Field of the Invention This invention relates to the field of radiant source ovens. More particularly, this invention relates to ovens having a rotating rack and an array of linear radiation sources typically shorter than the transverse dimension of the cooking location and which are arranged to maximize uniform cooking of a food item.
Background of the Invention Ovens following the present invention and having linear sources of visible and infra-red radiant energy are disclosed and described in U.S. Patent No.
5,036,179 and U.S. Patent Application Serial No.
07/738,207 which are incorporated herein by reference.
These ovens provide high-speed, high-quality cooking and baking of food items by impinging high-intensity visible, near-visible, and infrared radiations onto a food item. The ovens cook the food items within the short periods of time normally found in microwave cooking while maintaining the browning of infrared cooking and the quality of conduction-convection cooking. When food is exposed to a sufficiently I WO 94/28692 PCTfUS9405753 -2intense source of visible, near-visible, and infrared radiation, the food absorbs low levels of visible and near-visible radiation, thereby allowing the energy to penetrate the foodstuff and heat it deeply. The longer infrared radiation does not penetrate deeply but acts as an effective browning agent.
Ordinarily, the source of the visible, nearvisible and infrared radiation for this invention is in excess of two elongated quartz-halogen tungsten lamps, or equivalent means such as quartz arc lamps. Typical quartz-halogen lamps of this type operate at 3000 degrees Kelvin and convert electrical energy into black body radiation having a range of wavelengths from ,4 Am to 4.5 Am with a peak intensity at .965 Am. Each lamp can generally provide about between 1.5 and 2 kW of radiant energy with a significant portion of the energy in the visible light spectrum.
The ovens can use a plurality of these lamps or an array of several lamps either operated in unison or selectively operated in varying combinations as necessary for the particular food item sought to be cooked. These radiation sources are ordinarily positioned above and below the food item. The walls of the surrounding food chamber are preferably made from highly reflective surfaces. The visible and infrared waves from the radiation sources impinge directly on the food item and are also reflected off the reflected surfaces and onto the food item from many angles. This reflecting action improves uniformity of cooking.
The intensity of radiant energy received by an object decreases with the increase in distance between the object and the radiant energy source. Despite the improved uniformity of cooking provided by the reflective interior surfaces of the oven, the areas of the food item that are positioned directly above or i,, WO 94/28692 PCT/US94/05753 -3below the radiation sources receive more direct energy and therefore cook more quickly than their surrounding areas.
Figures 1A and 1B show an end view and a longitudinal side view, respectively, of a single linear radiation source 100 and further show the distributions of light intensity measured at the surface of a food item positioned underneath the radiation source. As shown in both figures, the regions of the food item which are positioned directly below the light source are exposed to the maximum intensity received by the food item, while the surrounding areas are exposed to significantly lower intensities.
Figure 2A shows a lamp configuration under which a food item 104 is cooked under an array of elongate radiation sources 100 that are shorter than the length of the food item and that are arranged in parallel.
The food item is cooked to the desired degree in the regions of the food item that are close to the lamps, designated by shading in Figure 2B. The unshaded regions remain uncooked or undercooked.
Rotating the food item relative to the stationary radiation sources also yields a non-uniformly cooked end product. Figure 3A shows a circular food surface 104, such as a pizza, positionoed underneath a single radiation source 100Oa having a length 1. The radiation source is parallel to and sho.ter than diameter d of the pizza. Referring to Figure 3B, when the pizza is rotated about its center C, the radiation source cooks a circular region AA having diameter equal to the length 1 of the radiation source 100a. Moreover, cooked portion AA is itself non-uniformly cooked: the regions that are closer to the center C spend more time under the radiation source, and therefore are cooked I Ir I I RA4, .Lz more thoroughly than those regions that are further away from it.
As shown in Figures 4A and 4B, positioning a single source 100b parallel to a diameter d of the rotating pizza will cook only an annular path BB, leaving the remainder of the pizza uncooked. A similar pattern would be achieved using a pair of lamps positioned to one side of the diameter d, such as that illustrated in U.K Patent Application GB-A-2 152 790.
Combining the concepts described with respect to Figures 3B and 4B partially solves the problem of nonuniform cooking. Figure 5A shows five equally spaced radiation sources 100c, 100d, 100e fixed over a pizza 104 which is positioned on a rotating rack (not shown) Lamps similarly positioned are described in U.S.
5,036,179. The sources are equal in length, and their length 1 is less than the diameter d of the pizza 104.
The center source 100c lies above the diameter of the pizza, and the outer radiation sources are positioned parallel to it.
When the pizza is rotated about the center C, the energy generated by radiation sources 100d and 100e creates partially cooked annular paths similar to region BB in Figure 4B. These paths are also exposed by the center source 100c, although their exposure time is minimal as explained with respect to Figure 3B.
Designing an oven having radiation sources that extend beyond the outer boundaries of the food location in the oven would allow uniform cooking of the food region even where the sources are arranged as in Figure However, there are limits to the size of radiation Sources that can be manufactured for use in ovens of the present type, making it often impractical to utilize radiation sources that are longer than the area -of food sought to be cooked. To attempt to do so would dnnecessarily limit the size of the food items which could be cooked using combined visible and infra-red radiation. A lamp configuration is therefore needed that will provide uniform cooking even where the size Substitute Sheet 0;\OP l\KA 1715694.209 23/9/96 of the cooking surface exceeds the dimensions of the lamps.
Summary of the Invention The present invention is an oven for cooking a food item therein. The oven includes a food support that is rotatable about an axis of rotation, and a radiation source for directing radiant energy onto the food support. The radiation source includes an array of elongate lamps, each of which has a longitudinal axis parallel to the longitudinal axes of the other lamps. The lamps are positioned above the food support such that the perpendicular distance between each lamp and a plane containing the axis of rotation and extending parallel to the longitudinal axes of the lamps differs from the distance between the plane and the other lamps.
Description of the Drawings Figures 1A and 1B are an end view and a side view, respectively, of a lamp and 15 with its associated intensity distribution measured at the surface of a food item positioned underneath the lamp.
Figures 2A through 5B are schematic representations showing four different lamp arrays and the regions of a food item that are cooked by each of the respective arrays, Figure 6 is a front section view of an oven according to the present invention.
20 Figure 7 is a side section view of a preferred embodiment of an oven according to the present invention.
Figures 8A, 8B and 8C are a perspective view, a top plan view, and a side elevational view, respectively, showing the preferred means for rotating the rack of the :i present invention.
,i Figure 9 is a schematic representation of the preferred lamp configuration according to the present invention.
Detailed Description of the Invention The present invention is comprised generally of an oven 10, a rotating circular rack 31, and upper and lower arrays 18, 16 of radiant energy sources, or
I,
lamps.
Figure 6 is a front section view of the oven.
The energy for cooking is supplied by lower heating lamps 16 and upper radiation heating lamps 18. The lamps are preferably quartz-halogen tungsten lamps which are capable of producing approximately 2 kW of radiant energy with a significant portion of the light energy in the visible light spectrum. When illuminated, the lighted portion of a preferred lamp has a length of approximately 25.4 cm (10 inches) The inner surface of the inner wall 12 is preferably a highly polished metal, such as aluminum or stainless steel, which is very reflective to the wide spectrum of wavelengths from the radiant lamps.
The oven has a door 40 (Figure 7) which also has a reflective inner surface.
Two radiation transparent plates 20 and 24 are used to isolate the cooking chamber from the radiant lamps, making the oven easier to clean. These plates can be formed from materials, such as high quality heat-resistant glasses and ceramics that are transparent to visible, non-visible and infrared radiations. The lower transparent plate 20 is supported by brackets 22a and 22b and is positioned above the lower lamps 16. The upper transparent plate 24 is supported by brackets 26a and 26b and is positioned below upper lamps 18.
Shelf 28 is mounted between the transparent plates inside the oven chamber. As shown in Figure 4 _ISubstitute Sheet I I- III III
TN
8A, the shelf 28 has a circular cut out portion 27 which is lined at its perimeter by a track 29. A circular rack 31, comprised of a grid of small diameter metallic bars 33, rests loosely on the track 29 as shown in Figure 8B. During use, a heatresistant glass dish which holds the food is placed on top of the rack for cooking. The rack has a diameter of preferably 30.48 35.56 cm (12 to 14 inches) and is capable of rotating around an axis of rotation, designated r. Rollers 35 are positioned such that 'ihen one of them is rotated by a motor (not shown), they engage with the perimeter portion of the rack, causing the rack to rotate within the track 29.
Figure 7 shows a side section of the preferred oven according to the present invention. In the preferred embodiment, there are 5 lower lamps 16a through 16e and 5 upper lamps 18a though 18e. By appropriately selecting the lateral spacing between the lamps relative to the food, even cooking can be achieved over the entire surface. This is accomplished by rotating the food item using the rack 31 and by arranging the lamps such that during the cooking cycle all regions of the food surface receive equivalent amounts of energy from the lamps. As described above, this requires arranging the lamps such that all regions of the food surface are positioned directly underneath a lamp for substantially equivalent periods of time.
This desired result is most readily accomplished by positioning the lamps asymmetrically with respect to the midline m of the lamp array. Asymmetry is achieved by positioning unequal numbers of lamps on either side of the midline, and/or by positioning the lamps at unequal distances from the midline such that the lamp arrangements on either side of the midline are not "mirror images" of one another.
Substitute Sheet '9 rLi Alternatively, an equal number of equally spaced lamps may be positioned on either side of the midline, and asymmetrical configurations of lamps may be selectively illuminated depending on the size and of the food item sought to be cooked and its ability to absorb visible light. Because different food types will be capable of absorbing different amounts of energy, a configuration of this type would be particularly helpful when, for example, a dish containing various foods is positioned on the rack for cooking.
A top view of the preferred lamp array is shown in Figure 9. In the preferred oven, the lamps in the upper and lower arrays are identically arranged.
Positioning of the lamps will be described with respect to a midline m which bisects the array and which intersects the axis of rotation r (Figures 6 and 7) of the rack 31. Three of the lamps, 18a, 18b, and 18c, are positioned on one side of the midline and are respectively 13.97 cm (5.5 inches), 11.43 cm inches) and 2.54 cm (1 inch) from the midline.
The remaining two lamps, 18d, 18e, are positioned on the opposite side of the midline and are positioned 8.89 cm (3.5 inches) and 14.49 cm (5.9 inches) from the midline, respectively. The lamps are positioned approximately 7.62 cm (3 inches) above the rack 31.
The lateral positions of the lamps from the midline can be varied plus or minus .32 cm (one-eighth inch) from their stated positions while still maintaining substantially uniform radiation across the food location.
In the embodiment of Figure 7 the positions of the lower lamps 16a-16e are the same as the upper lamps 18a-18e but obviously the position of one of these two sets can be reversed with respect to the other.
Substitute Sheet WO 94/28692 PCT/US94/05753 -9- To use the oven of the present invention, the food item sought to be cooked is positioned on the rack 31 and the door 40 is closed. The motor is switched on, causing the roller to engage and rotate the rack. The lamps are illuminated for a predetermined cooking time, causing the food item to cook uniformly.
The present invention is described in relation to the preferred embodiment but is limited only in terms of the language of the appended claims.

Claims (11)

1. An oven for cooking a food item, the oven comprising: a food support rotatable about an axis of rotation; and a radiation source for directing radiant energy onto the food support, the radiation source including an array of elongate lamps, each lamp having a longitudinal axis parallel to the longitudinal axes of the other lamps, the lamps positioned above and parallel to the food support such that the perpendicular distance between each lamp and a plane containing the axis of rotation and extending parallel to the longitudinal axes of the lamps differs from the distance between the plane and the other lamps, there being at least one lamp positioned on each side of the plane.
2. The oven of claim 1 wherein the radiation source further comprises an array of second Ga lamps, each second lamp having a longitudinal axis parallel to the longitudinal axes of the other second lamps and to the plane, the second lamps positioned below and parallel to the food support such that the perpendicular distance between each second lamp and the plane differs from the distance between the plane and the other second lamps.
3. An oven for cooking a food item, the oven comprising: 20 a food support rotatable about an axis of rotation; and a radiation source for directing radiant energy onto the food support, the radiation .st source comprising: an array of first lamps, each first lamp having a longitudinal axis parallel to the longitudinal axes of the other first lamps, the first lamps positioned above and parallel to the 0 to S" 25 food support such that the perpendicular distance between each first lamp and a plane Scontaining the axis of rotation and extending parallel to the longitudinal axes of the first lamps differs from the distance between the plane and the other first lamps, wherein all of the first lamps are positioned to one side of the plane, and an array of second lamps, each second lamp having a longitudinal axis parallel to the CPA4/ 30 longitudinal axes of the other second lamps and to the plane, the second lamps positioned I P:IOPfRIULKAM85691.CLA 2/51 11 above and parallel to the food support such that the perpendicular distance between each second lamp and the plane differs from that of the other second lamps, wherein all of the second lamps are positioned to a side of the plane opposite to the side on which the first lamps are located and wherein the array of first lamps includes at least one more lamp than the array of second !amps.
4. The oven of claim 3 wherein the radiation source further comprises: an array of third lamps, each third lamp having a longitudinal axis parallel to the plane, the third lamps positioned above and parallel to the food support such that the perpendicular distance between each third lamp and the plane differs from that of the other third lamps, wherein all of the third lamps are positioned on the same side of the plane as the first lamps; and S* an array of fourth lamps, each fourth lamp having a longitudinal axis parallel to the plane, the fourth lamps positioned above and parallel to the food support such that the perpendicular distance between each fourth lamp and the plane differs from that of the other fourth lamps, wherein all of the fourth lamps are positioned on the same side of the plane as the second lamps, wherein the array of third lamps includes at least one more lamp than the array of fourth lamps. 20 5. The oven of claims 1 or 3 wherein the food support has edges and a widest dimension *0 extending between the edges in a direction perpendicular to the axis of rotation, and wherein the widest dimension is greater than the length of the lamps.
6. An oven for cooking a food item, the oven comprising: a food support rotatable about an axis of rotation, the food support having edges and a widest dimension d extending between the edges in a direction perpendicular to the axis of rotation; an array of elongate lamps for directing radiant energy onto the food support, each lamp having a filament length L substantially equal to 10/12d, each lamp further having a s. s 30 longitudinal axis parallel to the longitudinal axes of the other lamps, the array including; MMNMOOI I'P.\OP'EI\LKAM1856lS CIA 1291 -12- /np positioned above and parallel to the food support such that the perp: distance between the first lamp and a plane containing the axis of rotation and extending parallel to the longitudinal axes of the lamps is substantially equal to 1/10L, a second lamp positioned above and parallel to the food support such that the perpendicular distance between the second lamp and the plane is substantially equal to 4.5/10L, a third lamp positioned above and parallel to the food support such that the perpendicular distance between the third lamp and the plane is substantially ;qual to 5,5/10L, a fourth lamp positioned above and parallel to the food support such that the perpendicular distance between the fourth lamp and the plane is substantially equal to and a fifth lamp positioned above and parallel to the food support such that the perpendicular distance between the fourth lamp and the plane is substantially equal to 5.9/10L; 15 said first, second and third lamps being located on one side of the plane and said S* fourth and fifth lamps being located on the side of the plane opposite said one side, and rotation means for rotating the food support about the axis of rotation.
7. A method of cooking a food item positioned on a food support having an axis of 20 rotation, the method comprising the steps of: directing radiant energy onto the food; initiating said radiant energy from a plurality of spaced apart lamps having substantially parallel longitudinal axes, the longitudinal axes parallel to the food support and to a plane containing the axis of rotation of the food support, the perpendicular distance S' 25 between each lamp and the plane containing the axis of rotation differs from the distance between the plane and the other lamps at least one of the lamps positioned on one side of the plane and at least one of the lamps on an opposite side of the plane; and rotating the food support about the axis of rotation. 30 8. A method of cooking a food positioned on a food support having an axis of rotation, AI 0 I P:\01'PI LKA\17850I.CI.A. 12/5/97
13- the method comprising the steps of: directing radiant energy onto the food; initiating a first portion of said radiant energy from a first array of a number N of spaced apart first lamps having substantially parallel longitudinal axes, the longitudinal axes parallel to a plane containing the axis of rotation of the food support, the first lamps positioned above and parallel to the food support and each of the first lamps is spaced a different distance from said plane compared to the other first lamps, wherein at least one of U'1. first lamps positioned on one side of the plane and at least one of the first lamps on an opposite side of the plane; initiating a second portion of said radiant energy from a second array of a number more than N of spaced apart second lamps having substantially parallel longitudinal axes, the longitudinal axes parallel to the plane containing the axis of rotation of the food support, the second lamps positioned below and parallel to the food support and each of the second lamps is spaced a different distance from said plane compared to the other second lamps, wherein 6**06% 68:64 15 at least one of the second lamps positioned on one side of the plane and at least one of the •second lamps on an opposite side of the plane; and rotating the food support about the axis of rotation. 9. An oven for cooking a food item, the oven comprising: S 20 a food support rotatable about an axis of rotation, the food support having edges and a widest dimension extending between the edges in a direction perpendicular to the axis of rotation; and a radiation source for directing radiant energy onto the food support, the radiation source including an array of elongate lamps each having an effective length which is shorter 25 than the widest dimension of the food support, each lamp having a longitudinal axis parallel to the longitudinal axes of the other lamps, the lamps positioned facing and parallel to the food support such that the perpendicular distance between each lamp and a plane containing thdie axis of rotation and extending parallel to the longitudinal axes of the lamps differs from the distance between the plane and the other lamps. I I':\OPIII\I.A\I1751I. CLA, 12/51W -14- The oven of claim 9 wherein the first lamps are positioned above the food support and wherein the radiation source further comprises an array of second lamps each having an effective length which is shorter than the widest dimension of the food support, each second lamp having a longitudinal axis parallel to the longitudinal axes of the other second lamps and to the plane, the second lamps positioned below and parallel to the food support such that the perpendicular distance between each second lamp and the plane differs from the distance between the plane and the other second lamps. 11. An oven for cooking a food item, the oven comprising: a food support rotatable about an axis of rotation, the food support having edges and a widest dimension extending between the edges in a direction perpendicular to the axis of rotation; and o a radiation source for directing radiant energy onto the food support, the radiation source comprising: 15 an array of first lamps, each first lamp having a longitudinal axis parallel to the longitudinal axes of the other first lamps, the first lamps facing and parallel to the food support such that the perpendicular distance between each first lamp and a plane containing the axis of rotation and extending parallel to the longitudinal axes of the first lamps differs from the distance between the plane and the other first lamps, wherein all of the first lamps 20 are positioved to one side of the plane, and I an array o' second lamps, each second lamp having a longitudinal axis parallel to the longitudinal axes of the other second lamps and to the plane, the second lamps facing and parallel to the food support such that the perpendicular distance between each second lamp and the plane differs from that of the other second lamps and the first lamps, each of the first S6 25 and second lamps having an effective length which is shorter than the widest dimension of the food support, wherein at least one of the second lamps positioned to a side of the plane opposite to the side on which the first lamps are located. 12. The oven of claim 11, wherein all of the first lamps are positioned to one side of the VI "RAL ,30 plane, and wherein all of the second lamps are positioned to a side of the plane opposite to ^o r^/l u I' ,OPI'L.KA\17 CLA. 12/5m7 the side on which the first lamps are located. 13. The oven of claim 11, wherein the array of first lamps includes at least one more lamp than the array of second lamps.
14. The oven of claim 12, wherein the first lamps are positioned above the food support and the second lamps are positioned below the food support. The oven of claim 14, wherein the radiation source further comprises: an array of third lamps, each third lamp having a longitudinal axis parallel to the plane, the third lamps positioned below and parallel to the food support such that the perpendicular distance between each third lamp and the plane differs from that of the other third lamps, wherein all of the third lamps are positioned on the same side of the plane as the first lamps, and an array of fourth lamps, each fourth lamp having a longitudinal axis parallel to the plane, the fourth lamps positioned above and parallel to the food support such that the b I "perpendicular distance between each fourth lamp and the plane differs from that of the other fourth lamps, wherein all of the fourth lamps are positioned on the same side of the plane as the second lamps. I 16. A method of cooking a food item positioned on a food support having an axis of 06*0 rotation and further having edges and a widest dimension extending between the edges in a direction perpendicular to the axis of rotation, the method comprising tht steps of: directing radiant energy onto the food item; 25 initiating said radiant energy from a plurality of spaced apart lamps having osubstantially parallel longitudinal axes, the longitudinal axes parallel to the food support and to a plane containing the axis of rotation of the food support, the lamps spaced different distances from said plane such that the perpendicular distance between each lamp and the plane differs from that of the other lamps, the lamps having effective lengths which are RAZn,0 shorter than the widest dimension of the food support; and I':\OI'n \lKA\178S.4 CLA 12/S/97
16- rotating the food support about the axis of rotation.
17. The method of claim 16, wherein the initiating step includes the steps of: initiating a first portion of said radiant energy from a first array of a number N of spaced apart first lamps having substantially parallel longitudinal axes, the longitudinal axes parallel to the food support and to the plane containing the axis of rotation of the food support, the first lamps positioned on one side of the plane and spaced different distances from said plane; initiating a second portion of said radiant energy from a second array of a number more than N of spaced apart second lamps having substantially parallel longitudinal axes, the longitdinal axes parallel to the food support and to the plane containing the axis of rotation of the fono support, the second lamps spaced different distances from said plane, all of the 'second lamps positioned to a side of the plane opposite to the side on which the first lamps 0 41 are located. S 18. The method of claim 16, wherein the initiating step includes the steps of: initiating a first portion of said radiant energy from a first array of a number N of spaced apart first lamps having substantially parallel longitudinal axes, the longitudinal axes parallel to the plane containing the axis of rotation of the food support, the first lamps 20 positioned above and parallel to the food support and spaced different distances from said plane; initiating a second portion of said radiant energy from a second array of a number more than N of spaced apart second lamps positioned below the food support, the second lamps having substantially parallel longitudinal axes, the longitudinal axes parallel to the food 25 support and to the plane containing the axis of rotation of the food support, the second lamps spaced different distances from said plane.
19. An oven substantially as hereinbefore described with reference to the accompanying drawings. P \OPIR'IAA1.MIOCLA. WNW~ 17- A method of cooking a food item substantially as hereinbefore described with reference to the accompanying drawings. DATED this 12th day of May, 1997 QUADLUX, INC. By its Patent Attorneys DAVIES COLLISON CAVE S V.. S. eq ASS S S9ACS 4 S A 4v Ag 4 CS S S.. SS S ES S S. 55 5 a 4 *555 55 S
AU69177/94A 1993-05-21 1994-05-20 Apparatus and method for uniformly cooking food with asymmetrically placed radiant energy sources Expired AU682876B2 (en)

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US6580293A 1993-05-21 1993-05-21
US065802 1993-05-21
PCT/US1994/005753 WO1994028692A1 (en) 1993-05-21 1994-05-20 Apparatus and method for uniformly cooking food with asymmetrically placed radiant energy sources

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US6125740A (en) 1999-03-12 2000-10-03 National Presto Industries, Inc. Rotatable cooking apparatus

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ATE260536T1 (en) 2004-03-15
JPH08511084A (en) 1996-11-19
CA2163442C (en) 2003-07-29
EP0699373A1 (en) 1996-03-06
JP3488238B2 (en) 2004-01-19
WO1994028692A1 (en) 1994-12-08
KR960702725A (en) 1996-04-27
DE69433574T2 (en) 2005-03-10
EP0699373B1 (en) 2004-02-25
DE69433574D1 (en) 2004-04-01
AU6917794A (en) 1994-12-20
CA2163442A1 (en) 1994-12-08

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