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Title:
BELTED FOOD WARMING ASSEMBLY
Document Type and Number:
WIPO Patent Application WO/2020/091840
Kind Code:
A1
Abstract:
A belted food warmer assembly is disclosed that includes a housing containing a heated rotating drum, a belt roller, and a belt. The belt is draped over a portion of the heated rotating drum and is configured to hold a flexible food product against the heated drum as the food product rotates with the heated drum.

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Inventors:
RIGGLE GARY (US)
Application Number:
PCT/US2019/030159
Publication Date:
May 07, 2020
Filing Date:
May 01, 2019
Export Citation:
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Assignee:
STAR MFG INTERNATIONAL INC (US)
International Classes:
A21B1/42; A21B1/44; A21B1/46; A21B1/48; A21B3/07; A21B5/02
Foreign References:
US20100209578A12010-08-19
US9516883B12016-12-13
US20010001462A12001-05-24
GB1480964A1977-07-27
US5983785A1999-11-16
US20140199446A12014-07-17
Attorney, Agent or Firm:
SMITH, Stephen, C. (US)
Download PDF:
Claims:
CLAIMS

1. A food warmer assembly comprising: a housing; a cylindrically shaped heating drum rotatably mounted within the housing, the heating drum having an outer circumferential surface; a belt roller rotatably mounted within the housing and disposed substantially parallel to the heating drum, wherein the belt roller is movably spaced apart from the heating drum circumferential surface; a belt looped around the belt roller, wherein the belt is disposed over a top portion of the heating drum circumferential surface and a back portion of the heating drum circumferential surface.

2. The food warmer assembly of claim 1 , further comprising two belt roller side rails that form a channel oriented perpendicularly to an outer circumferential surface of the heating drum, wherein the belt roller is disposed within the channel.

3. The food warmer assembly of claim 1 , further comprising two belt guides that at least partially constrain a top half of the looped belt.

4. The food warmer assembly of claim 1 , wherein the belt, when it is formed as a loop, is at least as long as one third the circumference of an outer circumferential surface of the heating drum.

5. The food warmer assembly of claim 1 , wherein the belt is in contact with at least one third of an outer circumferential surface of the heating drum when there is no food product located in the food warmer assembly.

6. The food warmer assembly of claim 1 , wherein the belt is looped only around the belt roller.

7. The food warmer assembly of claim 1 , wherein rotation of the heating drum is configured to move a food product within the housing at least partially in contact with the circumferential surface of the heating drum.

8. The food warmer assembly of claim 1 , wherein the belt roller can be spaced apart from the heating drum circumferential surface such that a food product can be located in the space.

9. The food warmer assembly of claim 1 , further comprising an inlet tray.

10. The food warmer assembly of claim 1 , further comprising an outlet tray.

1 1. The food warmer assembly of claim 1 , further comprising a high- temperature switch disposed within the housing on a side of the heating drum substantially opposite the belt roller.

12. The food warmer assembly of claim 1 , further comprising a motor to rotate the heating drum.

13. The food warmer assembly of claim 1 , further comprising a heating element located within the heating drum configured to warm the outer circumferential surface of the heating drum

14. The food warmer assembly of claim 1 , wherein the housing includes a side disposed at one end of the heating drum that is configured to open to allow access to the one end of the heating drum.

15. The food warmer assembly of claim 1 , wherein the housing includes a lid that is movable to allow access to the heating drum.

16. The food warmer assembly of claim 1 , wherein the belt is

substantially the same width as the heating drum.

17. The food warmer assembly of claim 1 , wherein the belt roller is

substantially the same width as the heating drum.

18. A method for warming a flexible food product, the method

comprising: inserting the food product between a belt and a cylindrically shaped heating drum, wherein the belt is looped around a rotatable belt roller that is movable spaced apart from the heating drum; rotating the heating drum to pull the food product along a top exterior circumferential surface of the heating drum; moving the food product along the heating drum exterior

circumferential surface as the heating drum rotates while the food product remains disposed between the heating drum exterior circumferential surface and an exterior surface of the belt; holding the food product against the heating drum exterior circumferential surface by the weight of the belt causing the exterior surface of the belt to maintain contact with the food product; heating an interior of the heating drum with a heater; warming the food product as it contacts the heating drum exterior circumferential surface.

19. The method for warming a flexible food product of claim 18, further comprising adjusting the spacing between the belt roller and the heating drum by moving the belt roller within side rails that include slots oriented perpendicularly to the heating drum exterior circumferential surface.

20. The method for warming a flexible food product of claim 18, further comprising separating the food product from the heating drum exterior circumferential surface at a point where the belt separating from the heating drum exterior circumferential surface.

Description:
BELTED FOOD WARMING ASSEMBLY

BACKGROUND

[0001] The present disclosure relates generally to food warming assemblies, and more particularly, to a belted food warming assembly with a rotating heated drum.

SUMMARY

[0002] A food warmer assembly with a housing, a cylindrically shaped heating drum rotatably mounted within the housing, the heating drum having an outer circumferential surface, a belt roller rotatably mounted within the housing and disposed substantially parallel to the heating drum, wherein the belt roller is movably spaced apart from the heating drum circumferential surface, and a belt looped around the belt roller, wherein the belt is disposed over a top portion of the heating drum circumferential surface and a back portion of the heating drum circumferential surface.

[0003] A method for warming a flexible food product including the steps of inserting the food product between a belt and a cylindrically shaped heating drum, wherein the belt is looped around a rotatable belt roller that is movable spaced apart from the heating drum; rotating the heating drum to pull the food product along a top exterior circumferential surface of the heating drum; moving the food product along the heating drum exterior circumferential surface as the heating drum rotates while the food product remains disposed between the heating drum exterior circumferential surface and an exterior surface of the belt; holding the food product against the heating drum exterior circumferential surface by the weight of the belt causing the exterior surface of the belt to maintain contact with the food product; heating an interior of the heating drum with a heater; and warming the food product as it contacts the heating drum exterior circumferential surface.

BRIEF DESCRIPTION OF THE DRAWINGS

[0004] Fig. 1 is an isometric view of an embodiment of a warming assembly; [0005] Fig. 2 is a partial isometric view of an embodiment of a warming assembly; and

[0006] Fig. 3 is a partial side view of an embodiment of a warming assembly. DETAILED DESCRIPTION

[0007] This application hereby incorporates by reference U.S. Patent No.

9,516,883, entitled“Heating Assembly and Method for Tortilla Like Food.”

[0008] Referring now to the figures, a warming assembly 100 for thin bread like food, such as tortilla, crepes, pita bread, flatbread, thin pancake, and like food, is shown in Fig. 1. Such bread-like food is flexible and malleable, and may have a thickness of 1/4 inch or less. Such food further has a first surface and an oppositely facing second surface. The surfaces can lie flat on a flat surface or bend to fit the contour of a surface against which it is pressed. For the sake of simplicity, during the following disclosure, this type of food is referred to as a “food product.”

[0009] The warming assembly 100 may be a stand-alone unit configured to be placed on a flat surface, such as a shelf or counter, or may be configured to be placed within an array of food preparation devices within a kitchen. Warming assembly 100 may include a housing 102 that may be substantially rectangular, as shown in Fig. 1 , or that may be any other shape suitable to enclose warming assembly 100. Housing 102 may include a lid 104 that is removable to allow access to an interior portion of housing 102. Lid 104 may be attached to housing 102, such as through a hinge, that allows lid 104 to pivot away from housing 102. Additionally or alternatively, lid 104 may be completely removed from housing 102. Housing 102 may include a hinged or removable rear panel to allow access to the interior, such as for servicing. Housing 102 may include a removable side panel to allow access to the interior, such as for servicing the interior

components.

[0010] Warming assembly 100 may include an infeed platform 106 located at a front of housing 102. Infeed platform 106 may generally have a flat top surface 108 which is sized to allow a food product to be placed flat upon it, and acts as a table upon which the food product can be placed to slide upon as the food product is fed by hand into warming assembly 100. Surface 108 may be dimpled and may be coated with a stick resistant coating such as PTFE or the like to prevent the food product sticking or otherwise textured to allow the food product to easily slide on surface 108. Infeed platform 106 may have edges 1 10 to help contain the food product within infeed platform 106. Infeed platform 106 may be angled downward with respect to housing 102 to aid the food products sliding into housing 102. Infeed platform 106 may be detachable from housing 102, such as to allow for cleaning of infeed platform 106.

[0011] Warming assembly 100 may include an outfeed platform 1 12 located at the bottom of housing 102. Outfeed platform 1 12 may generally have a flat top surface 1 14 which is sized for a food product. Surface 1 14 may be coated with a stick resistant coating such as PTFE or the like to prevent food product sticking to the surface and allow the food product to easily slide on surface 144. Outfeed platform may be curved, as shown in Fig. 1 , to aid food products moving away from housing 102. The curve may be oriented such that food products move away from the front of housing 102. Outfeed platform 1 12 may have sides 1 16 to help contain the food product within outfeed platform 1 12. Outfeed platform 1 12 may be detachable from housing 102, such as to allow for cleaning of outfeed platform 112.

[0012] Fig. 2 is an isometric view of warming assembly 100 with portions of the housing 102 and other internal components removed to allow for a clearer view of the interior of warming assembly 100. Warming assembly includes heating drum 120 located within housing 102. Fleating drum 120 may be cylindrically shaped with a curved exterior circumferential surface 122 that extends along the length of heating drum 120. Heating drum 120 may be metal, for example such as stainless steel, or may any other material that conducts heat. The exterior circumferential surface 122 of heating drum 120 may be coated with a stick resistant coating such as PTFE or the like to prevent the food product sticking to exterior circumferential surface 122. Heating drum 120 may be rotated by a motor (not shown), which may be a variable speed motor, located within housing 102. Heating drum 120 may rotate counterclockwise, as viewed from the perspective of Fig. 2.

[0013] A heater 124 may be located within heating drum 120. Heater 124 may include a generally U-shaped heating element that extends at least partially the length of heating drum 120, or any other type of heating element that is capable of increasing the temperature of heating drum 120. Heating drum 120 may rotate about heater 124 such that exterior circumferential surface 122 of heating drum 120 is heated. Exterior circumferential surface 122 may then transmit heat to a food product that is in contact with exterior circumferential surface 122.

[0014] Warming assembly 100 may include a belt 126 located within housing 102. Belt 126 may be a looped belt that may have a width approximately the same as the horizontal length of heating drum 120. Belt 126 may be looped around a belt roller 128, as described below. Belt 126 may be made of a flexible material, such as fabric, rubber, or plastic, for example. Belt 126 may be coated with a stick resistant coating such as PTFE or the like to prevent the food product sticking to it.

[0015] Belt 126 may be of sufficient weight such that it will hold down a food product onto the exterior circumferential surface 122 of heating drum 120. The weight of belt 126 may cause the food product to bend or flex and conform the shape of the food product to the shape of heating drum 120. Conforming the shape of food product to the shape of heating drum 120 may increase the contact area between the food product and exterior circumferential surface 122 of heating drum 120, which may increase the amount of heat transmitted from heating drum 120 to the food product. Consequentially, the food product may be warmed faster or more thoroughly than if belt 126 did not hold the food product against heating drum 120.

[0016] Belt 126 may serve to contact a food product should the food product separate from the exterior circumferential surface 122 of heating drum 120 and to direct the food product into contact with the exterior circumferential surface 122 of heating drum 120. This may improve the continuous nature of the heating of the food product by the heating drum 120. Belt 126 may act to maintain a food product in contact with the exterior circumferential surface 122 of heating drum 120 to provide more direct transmission of heat from the heating drum 120 to the food product.

[0017] The belt roller 128 may be located near an infeed opening 130 at the front of housing 102. Belt roller 128 may be substantially parallel to heating drum 120. Belt roller 128 may be a generally cylindrical shape. Belt roller 128 may have a length approximately the same as the horizontal length of heating drum 120. Belt roller 128 may rotate through the rotating action of belt 126 on belt roller 128, such as if the motion of a food product causes belt 126 to rotate, which in turn causes belt roller 128 to rotate.

[0018] Belt roller 128 may be located at approximately the two-o’clock position with respect to the end of heating drum 120 visible in Fig. 2, as shown in Fig. 2. Alternatively, belt roller 128 may be located anywhere from the twelve-o’clock position to the three-o’clock position with respect to the end of heating drum 120 visible in Fig. 2.

[0019] Belt roller 128 may be constrained by belt roller side rails 132 located at the two ends of belt roller 128. (Only one belt roller side rail 132 is shown in Fig.

2 for clarity.) Belt roller side rails 132 may allow belt roller 128 to rotate. Belt roller side rails 130 may be generally U-shaped brackets with a flat central portion and two short raised edges. Belt roller side rails 132 may form a channel that constrains the movement of belt roller 128 in a first direction and allows

movement of belt roller 128 in a second perpendicular direction. Belt roller side rails 132 may be disposed at an angle within housing 102 such that the channel formed is perpendicular to the exterior circumferential surface 122 of heating drum 120, as shown in Fig. 2. Belt roller 128 may be free to float towards and away from the exterior circumferential surface 122 of heating drum 120, in a generally perpendicular direction, while belt roller 128 is within belt roller side rails 132. In this manner, gravity may cause belt roller 128 to rest against the exterior circumferential surface 122 of heating drum 120, but belt roller 128 may be free to move away from heating drum 120 if a food product was placed between belt 126 (which is looped around belt roller 128) and the exterior circumferential surface 122 of heating drum 120. The food product may cause belt roller 128 to move away from heating drum 120 when the food product is fed into infeed opening 130. The floating nature of belt roller 128 may accommodate varying thicknesses of food products, so that for thicker food products, the belt roller 128 (and belt 126 looped around belt roller 128) can move away from the heating drum 120. For thinner food products, the belt roller 128 (and belt 126 looped around belt roller 128) can move toward from the heating drum 120.

[0020] The weight of belt roller 128 may press the food product against heating drum 120. The rotation of the heating drum 120 may pull the food product upwards along the exterior circumferential surface 122 of heating drum 120 in a counterclockwise direction. The belt 126 will separate from the exterior circumferential surface 122 of heating drum 120 as the food product is pulled between belt 126 and the exterior circumferential surface 122 of heating drum 120.

[0021] The width of warming assembly 100 and its components, including housing 102, heating drum 120, belt 126, and belt roller 128, may vary from approximately 8 inches to about 24 inches. The width may be wide enough to accommodate two or three generally parallel lines of food products, such as tortillas, that are being fed into warming assembly 100. The heating drum 120 diameter may vary from approximately four to nine inches. The diameter of belt roller 128 may vary from approximately one half to four inches.

[0022] Fig. 3 is a side view of warming assembly 100 with portions of the housing 102 and other internal components removed to allow for a clearer view of the interior of warming assembly 100. Fig. 3 shows infeed platform 106 with edges 1 10, outfeed platform 1 12 with sides 1 16, heating drum 120, belt 126, belt roller 128, and belt roller side rails 132.

[0023] Fig. 3 shows that belt 128 may be in contact with the exterior

circumferential surface 122 of heating drum 120. Belt 126 may be of sufficient length, when it is looped as shown in Fig. 3, such that belt 126 lays on, is draped on, or is in contact with approximately one half the circumference of exterior circumferential surface 122 of heating drum 120, as shown in Fig. 3. Belt 126 may lay on the top and back portions of the circumference of exterior circumferential surface 122 of heating drum 120 (where the back portion of heating drum 120 is in relation to the front infeed area of housing 102 and belt roller 128). Belt 126 may also be a shorter length such that is in contact with less than approximately one half the circumference of exterior circumferential surface 122 of heating drum 120. The length of belt 126 may also affect the weight of belt 126 and the force belt 126 places on a food product located between belt 126 and heating drum 120. A longer belt 126 may weigh more, which may apply more force to the food product than a shorter belt 126.

[0024] Fig. 3 shows belt guides 134. (Only one belt guide 134 is shown in Fig. 3 for clarity.) Belt guides 134 may help guide the travel belt 126 and ensure that belt 126 remains straight and centered on heating drum 120. Belt guides 134 may be brackets positioned on the interior of housing 102 such that only a top half of the looped belt 126 travels through belt guides 134, as shown in Fig. 3.

[0025] In operation, warming assembly 100 may heat a food product that is fed into infeed opening 130 at the front of housing 102. The food product may be placed on infeed platform 106 and slid into infeed opening 130. The food product may contact the exterior circumferential surface 122 of heating drum 120 and be pulled into housing 102 by the counterclockwise rotation of heating drum 120.

The food product may be pulled between belt 126 and heating drum 120 as the food product travels along with the rotation of heating drum 120. Belt 126 may rotate in a clockwise direction (as viewed in Fig. 3) due to the friction with the top of the food product as the food product travels with the rotation of heating drum 120. The weight of belt 126 may hold the food product down against the exterior circumferential surface 122 of heating drum 120 along the top and back portions of heating drum 120 where belt 126 is in contact with the exterior circumferential surface 122 of heating drum 120, as shown in Fig. 3. The food product may be heated by heating drum 120 as the food product is in contact with the exterior circumferential surface 122 of heating drum 120. The food product may separate from the exterior circumferential surface 122 of heating drum 120 when the food product reaches the area where belt 126 is no longer in contact with the exterior circumferential surface 122 of heating drum 120. The area where belt 126 is no longer in contact with the exterior circumferential surface 122 of heating drum 120 is approximately at an eight-o’clock position with respect to the end of heating drum 120 visible in Fig. 3. After the food product separates from the exterior circumferential surface 122 of heating drum 120, the food product may fall onto outfeed platform 112 and slide along curved surface 1 14 to be

discharged from warming assembly 100.

[0026] Accordingly, the food product travels along the circular path of the exterior circumferential surface 122 of heating drum 120. The malleable and flexible composition of the food product heated by warming assembly 100, allows the food product to bend along the curvature of the heating drum 120 and to travel with the heating drum 120 without sliding. Preferably the food product maintains the same area of contact against the heating drum 120 throughout its path from leaving the belt roller 128. The pressure applied by belt 126 against the food product helps to keep the food product in the same position relative to the heating drum 120 as the heating drum 120 rotates.

[0027] Warming assembly 100 may include a control and display panel 1 18 located at the front of housing 102, as shown in Fig. 1 , to control the operation of warming assembly 100. Temperature sensors (not shown), such as high temperature switches, may be located at specific locations, such as in the back area of heating drum 120.

[0028] While certain embodiments of the inventions have been described, it should be understood that the inventions are not so limited, and modifications may be made without departing from the inventions herein. While each

embodiment described herein may refer only to certain features and may not specifically refer to every feature described with respect to other embodiments, it should be recognized that the features described herein are interchangeable unless described otherwise, even where no reference is made to a specific feature. It should also be understood that the advantages described above are not necessarily the only advantages of the inventions, and it is not necessarily expected that all of the described advantages will be achieved with every embodiment of the inventions. The scope of the inventions is defined by the appended claims, and all devices and methods that come within the meaning of the claims, either literally or by equivalence, are intended to be embraced therein.