STOVETOP HEAT MANAGEMENT SYSTEM

Abstract

A food warming system involving a heat sink component, a warming plate, and an intervening insulation and heat- or fire-resistant layer that moderates the flow of heat from a charged heat sink component to the warming plate on which a vessel containing food is placed to maintain food in a heat-regulated state.

Claims

1. A food vessel warming system comprising: a heat sink component that defines a bounded interior space; a warming plate having a substantially flat food vessel resting surface, said warming plate being configured for nested positioning within said bounded interior space of said heat sink component with said food vessel resting surface facing outward from said bounded interior space; and insulating means intervening said heat sink component and said warming plate.

2. The system of claim 1 wherein said heat sink component is configured from a metallic material.

3. The system of claim 1 wherein said heat sink component is configured so safely from Materials selected from a group consisting of iron, steel, or stainless steel.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0008] FIG. 1 is a perspective view of the elements of a preferred embodiment of the present warming system.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

[0009] Referring to FIG. 1, a preferred embodiment of the present warming system 10 includes a pot or pan 12 (“heat sink component”), or the functional equivalent (even if specifically fashioned for this purpose). The ideal heat sink component would be of a material that absorbs and retains a significant amount of heat. Cast iron is one example. Conversely, aluminum, for example, would generally not be preferable, because aluminum rapidly dissipates heat to which it is exposed. Heat sink component 12 should be configured such that a warming plate 16 nests within its interior bounds. Warming plate 16 may be of comparable material to that of heat sink component 12, however this is not as critical as with the material choice of heat sink component 12, because warming plate 16's purpose is to transmit heat received from beneath it to any vessel placed thereon.

[0010] As mentioned above, intervening heat sink component 12 and warming plate 16 is a layer of heat resistant material (insulating layer) 14. Insulating layer 14 serves to regulate the flow of heat from heat sink component 12 to warming plate 16, and ultimately to any vessel placed upon warming plate 16 (not shown in the FIGURES). Insulating layer 14 may be of any nonflammable, insulating and durable material, with a relatively high melting point. The material from which “oven mitts” are made (at least the lining material) would be one example. In the alternative, another choice maybe of silicon material formed to fit as described in between heat sink component 12 and warming plate 16, such material being that from which silicone bakeware is made, would be another possible choice. The governing consideration is that the insulating, fire-resistant layer does, in fact, “insulate”, while controlling and regulating heat used to keep items above the same warm, while not or becoming damaged in any material way. Furthermore, the insulating, fire-resistant layer 14 may be fashioned as a single component, or as multiple ones as shown in FIG. 1.

[0011] Once configured, use of the current warming system 10 involves placing the heat sink component 12 atop a heat source (typically a range top burner) to “charge” the heat sink component with heat from the heat source. This may be followed by terminating the heat source (if not already done), inserting the insulating layer 14 into the interior space of the heat sink component 12, placing the warming plate 16 atop the insulating layer 14, and ultimately placing a food-containing vessel a top warming plate 16. Or, the heat source may remain, whether reduced or not, and yet the food to be warmed will not overcook or burn, due primarily to the insulating, fire-resistant layer.

[0012] Already cooked food and a vessel atop the assembled and “charged” warming system 10 will remain warm for so long as the heat sink component 12 continues to emit heat through insulating later 14 and warming plate 16. Heat emission will be considerably longer, and more regulated than would otherwise be possible without the assemblage as described herein. A result of all of the foregoing is that the food will not further cook, there is no risk of burning or fire, and all of the other inconveniences and hazards described above are fully avoided.

[0013] Although the invention has been described with reference to specific embodiments, this description is not meant to be construed in a limited sense. Various modifications of the disclosed embodiments, as well as alternative embodiments of the inventions will become apparent to persons skilled in the art upon the reference to the description of the invention. It is, therefore, contemplated that the appended claims will cover such modifications that fall within the scope of the invention.