FOOD SUPPORT TRAY

Abstract

A food support tray comprised of an expanded paperboard mesh tray insert for a delivery carton such as a pizza carton or a fresh produce clamshell. The expanded paperboard mesh is adapted for supporting pizza or other food items on the bond peaks of the expanded mesh, thus isolating the food item from oil and juices that could make the fresh food item turn soggy.

Claims

1. An expanded paperboard mesh food support tray insert for a pizza carton.

2. An expanded paperboard mesh food support tray made of biodegradable paperboard.

3. An expanded paperboard mesh food support tray as defined in claim 2 with a mesh patterns selected from a plurality of patterns.

4. An expanded paperboard mesh food support tray as defined in claim 2 wherein the mesh pattern has a strand height selected from a plurality of heights.

5. An expanded paperboard mesh food support tray as defined in claim 2 wherein the mesh pattern has a strand height of between about 1/16 inch to about inch.

6. An expanded paperboard mesh food support tray as defined in claim 5 wherein the mesh pattern forms a plurality of apertures through said paperboard having a short dimension of about 5/16 inch and a long dimension of about inch.

7. An expanded paperboard mesh food support tray as defined in claim 6 having a transverse dimension of between about 3 inches to about 18 inches.

8. An expanded paperboard mesh food support tray as defined in claim 2 that is heat cured and downdraft shock cooled after mesh expansion to render the expanded paperboard mesh food support tray more moisture proof and rigid.

9. An expanded paperboard mesh food support tray as defined in claim 8 that can be produced in a variety of colors.

10. An expanded paperboard mesh food support tray as defined in claim 2 that in certain iterations can be printed with advertising.

11. An expanded paperboard mesh food support tray as defined in claim 2 that can be manufactured in a variety of sizes and shapes.

12. An expanded paperboard mesh food support tray as defined in claim 2 made from specialized paper having additives applied thereto for extra moisture proofing or for preserving the shelf life of fresh produce.

13. An expanded paperboard mesh food support tray formed from a roll of paper board having a weight of between about 250 GSM to about 250 GSM and a moisture content of about 6.5% by the process of: a. feeding the roll through a slicing station to form multiple transverse slits through the paperboard to form a knife cut strip of paperboard; b. feeding the strip of knife cut paperboard through a pre-stretch station to form a strip of raw expanded paperboard; c. feeding the strip of raw expanded paperboard through a curing oven to reduce the moisture content of the paperboard and form a strip of reduced moisture paper board with a selected width and a selected mesh patter; d. cooling the strip of reduced moisture paperboard immediately after it passes through the curing oven to form a strip of cured paperboard having a selected width, mesh pattern and rigidity; and, e. cutting said strip of cured paperboard to a desired length to form an expanded paperboard mesh food support tray.

14. An expanded paperboard mesh food support tray formed by the process defined in claim 13 further comprising spraying additives on said knife cut strip of paperboard to impart anti-microbial properties to said expanded paperboard mesh food support tray.

15. An expanded paperboard mesh food support tray formed by the process defined in claim 13 wherein feeding said knife cut strip of paperboard through said pre-stretch station forms a plurality of apertures through said paperboard having a short dimension of about 5/16 inch and a long dimension of about inch.

16. An expanded paperboard mesh food support tray formed by the process defined in claim 15 wherein said plurality of apertures are defined by paperboard strands having a height of between about 1/16 inch to about inch.

17. An expanded paperboard mesh food support tray formed by the process defined in claim 13 wherein said expanded paperboard mesh food support tray is cut to have a transverse dimension of between about 3.5 inches and about 18 inches.

18. Apparatus for forming an open mesh food support tray from paperboard comprising: a. a deployment stand for supporting a roll of raw paperboard having a predetermined width such that said raw paperboard may be removed from said roll as a continuous strip of paperboard; b. a knife station having a plurality of spaced apart knives positioned to cut transversely oriented spaced apart slits through said continuous strip; c. a pre-stretching station having a plurality of rollers for engaging said continuous strip and longitudinally tensioning said continuous strip such that said slits open and the predetermined width of the strip diminishes to form a mesh pattern of connected strands of paperboard surrounding a plurality of apertures in an expanded paperboard mesh strip; d. a curing oven; e. a down draft cooling station adjacent said curing oven; f. a metering roller engaging said expanded paperboard mesh strip and urging it through said curing oven and down draft cooling station at a predetermined tension; and, g. a cutter extending transversely of said expanded paperboard mesh strip and operable to cut said expanded paper board mesh strip in to lengths suitable for use as food support trays.

19. Apparatus as defined in claim 18 further comprising a misting station intermediate said knife station and said pre-stretching station for the application of additives to said continuous strip.

20. Apparatus as defined in claim 18 further comprising a take up stand for receiving aid continuous strip from said knife station and winding said continuous strip into a roll for storage or transport prior to entry into said pre-stretching station.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0010] Referring to the drawings which are appended hereto and which form a portion of this disclosure, it may be seen that:

[0011] FIG. 1 shows an empty pizza carton;

[0012] FIG. 2 shows the new paperboard mesh food insert;

[0013] FIG. 3 shows the support tray inside the carton;

[0014] FIG. 4 shows a pizza sitting on top of the support tray inside the pizza carton;

[0015] FIG. 5 shows a cross sectional view of FIG. 1C;

[0016] FIGS. 6, 7 and 8 show three potential mesh patterns;

[0017] FIG. 9 shows a cross sectional view of the tray;

[0018] FIG. 10 shows a cross sectional view of a thicker tray;

[0019] FIGS. 11 to 14 shows some of the wide range of shapes this product can be produced in.

[0020] FIG. 15 illustrates the first stage of the manufacturing process where the paper board is prepared for expansion;

[0021] FIGS. 16 and 17 illustrate the difference between the stock roll and the knife cut paperboard;

[0022] FIG. 18 is a pictorial depiction of the final manufacturing process;

[0023] FIGS. 19 and 20 illustrate the difference between the knife cut paper board and the expanded paperboard tray.

[0024] FIG. 21 illustrates the cutting knives of the first stage.

DETAILED DESCRIPTION

[0025] With reference now to the drawings, a new and improved food support tray or insert embodying the principles and concepts of the present invention will be described. The present invention, a new food support tray, is made of one component, paperboard. Examples of suitable paperboard include are coated SBS in the range of 14-20 pound weight, which is commercially available from Georgia-Pacific Bleached Board as Masterserve Clay Coated Cupstock and. Cupstock Low Moor converting paperboard such as can be purchased by large paper mills like Westrock Paper. The paperboard or cupstock should be food grade and the formed of multiple layers of chemically bleached pulp & then surface sized on the outside using starch. Usually the range of cupstock paper without a coating starts from 155 GSM (grams per square meter) to 400 GSM. In the preferred embodiment a weight of between about 250 GSM to about 350 GSM is preferred.

[0026] Referring to FIGS. 1 to 5, a the new paperboard mesh insert 10 is to be placed inside the standard carton C to support a pizza P sitting on top of the support mesh insert 10 inside the pizza carton C.

[0027] Referring to FIG. 6 to 8, note that three of the many mesh patterns which can be provided using the instant technology and process. FIG. 6 illustrates the cell size of the preferred embodiment with each aperture having a short dimension of about 5/16 and a long dimension of about however, the invention is not limited to these exact dimensions.

[0028] FIGS. 9& 10 shows a cross sectional view of the mesh insert 10 and illustrates how the mesh strand height H can be varied. In the preferred embodiment the strand height is . The possible range can be about 1/16 to about .

[0029] FIGS. 11 to 14 show some of the wide range of shapes in which this product can be produced. The most popular would be square such as 1212, 1414, 1616 and 1818 for pizza or 33 for fruit berries

[0030] FIG. 15 Illustrates the first stage of the manufacturing process where the paper board base product is expanded. A paper board roll 11, such as the Cupstock Low Moor paperboard mentioned above is supported on a stand 111 which allows it to be unrolled into a continuous strip 16 and guided to a cutting station 12 where offset cutting knives 13, also shown in FIG. 21, to produce the raw knife cut paperboard 17 which passes a flow control arm 15a and 15b and then rewound into a roll 18 for storage before further processing by stretching, heating, cooling, and cutting, final packing process. In FIGS. 16 & 17 sections of the continuous strip 16 and raw knife cut paperboard 17 have been shown in offset to clarify the difference between the two. It should be understood that an optional printing station can be added to print logos, colors or text on the continuous strip or the raw knife cut paperboard.

[0031] With reference to FIG. 18, in the final manufacturing process, feed stand 21 feeds the roll 18 of raw knife cut paperboard 17 to a flow control arm 22, then to a passive feed roll 23. From the passive feed roll 23, the strip of raw knife cut paper board 17 is drawn by two pre-stretching roller sets 25 through a misting applicator 24. Misting applicator 24, comprising a set of nozzles which are connected to a supply of flowable additives, may be used to apply the additives as desired for such purposes as extra moisture proofing or for preserving the shelf life of fresh produce. An additional roller beneath the strip of paper board also applies the additive to the board. By way of example Zeolite can be applied at the misting station for a variety of purposes including use as an antimicrobial and for physical stability of the paperboard. Likewise, RHOBARR 110 an acrylic copolymer latex, available from The Dow Chemical Company, designed for use in paper and board coatings offering oil and grease and water barrier properties can be applied at the misting station. The pre-stretching roller sets 26 tension the strip of raw knife cut paperboard to cause an initial expansion of the paperboard to form a strip of raw expanded paperboard. It will be understood that the process opens the slits into apertures 101 through the paperboard bounded by interconnected strands 102.

[0032] The strip of raw expanded paperboard is carried through a curing oven 26 under the influence of a second metering roll 28. The curing oven 26 is used to reduce the moisture content of the expanded paperboard, thereby causing the paperboard to retain its expanded shape. Accordingly, the temperature of the oven 26 and the dwell time of the paper is variable, depending on the thickness of the paper being used as the base stock and the desired rigidity of the final product. For example, a pizza tray may be very rigid whereas a vegetable tray may require a somewhat softer tray that has a little give to it. For most applications an oven temperature of about 300 degrees F. to about 380 degrees F. with a dwell or transit time of between about 10 to about 26 seconds. The purpose of the oven is to drastically reduce the moisture in the paperboard strip from the approximately 6.5% moisture content normally found paperboard. Thus the right combination of temperature and time will necessarily be adjusted as the product is manufactured.

[0033] The second metering roll 28 which is used to control the amount of stretch imparted to the paper and therefor controls cell size and to a degree product width. That is to say, as tension causes the strip to elongate the cells change their shape and the strip becomes correspondingly narrower. When the strip of paperboard is at its desired width and cell profile, the curing oven 26 fixes the paperboard in this state by drying the board as noted above. The dwell time in the oven 26 is partially controlled by the second metering roll 28. Intermediate the second metering roll 28 and the oven 26 is a down draft cooler 27 to quickly cool and set the paper. Downstream of the second metering roll is the cutter 29 that cuts the rigid paper stream to form the proper size tray 30 from the board with the misting applied, pre-stretched, cured and set, now with an open cell structure and strand height, cut to individual size. The cut tray 10 can be carried by any suitable conveyor 30 for placement into a shipping carton 31. For clarity in FIGS. 19 & 20 we depict before and after views of the raw expanded board 17 and the cured stretched and cooled board tray 10 now with an open cell structure. Printing is desired but not implemented previous to this step, note that a printing station can be implemented before or after the cutter as well.

[0034] In use, the upward elevations of the now cured and moisture impervious surface of tray 10, serve to elevate the pie from the pizza carton, thus supporting the pie above its own grease and liquid that would accumulate in a conventional scenario. The second advantage of elevating the crust from the carton base is to allow an air flow under the pizza crust and inhibit the carton base from absorbing too much heat from the pie crust.

[0035] In the produce usage, the tray 10 allows for greater air circulation under the fresh produce and isolates it from the typical plastic clamshell base.

[0036] With respect to the above description then, it is to be realized that the optimal dimensional relationships for the invention, to include variations in size, materials, color, shape, form, function and manner of operation, assembly and use, are deemed readily apparent to one skilled in the art. All equivalent relationships to those illustrated in the drawings and described in the specification are intended to be encompassed by the present invention.

[0037] While in the foregoing specification this invention has been described in relation to certain embodiments thereof, and many details have been put forth for the purpose of illustration, it will be apparent to those skilled in the art that the invention is susceptible to additional embodiments and that certain of the details described herein can be varied considerably without departing from the basic principles of the invention.