RIGID COMPARTMENTED PRESSWARE PLATE WITH TALL DIVIDERS
A compartmented pressware paper plate is characterized by one or more tall dividers each having a pair of divider sidewall surfaces and adjoining the plate bottom which transitions to the divider sidewall surfaces, wherein the one or more tall dividers are characterized by a divider height, DH, greater than 9/32″, with a flange characterized by a height, H, at its apex and an outward flange downturn extending downwardly a distance, V, with respect to the apex of the flange, wherein the ratio of V:H is from about 0.1 to about 0.75, and preferably with transitions between adjoining surfaces of the bottom surface and the divider sidewall surfaces characterized by variable radii of curvature wherein the variable radii of curvature vary from a first value proximate to transitions between two surfaces to a second value higher than the first value at transitions proximate to the intersection of three surfaces.
This application is based on U.S. Provisional Patent Application No. 63/316,482, filed Mar. 4, 2022, which is hereby incorporated by reference in its entirety.
TECHNICAL FIELDThis invention relates to pressware paper plates with tall dividers formed therein to define a plurality of serving compartments for food items.
BACKGROUNDMany consumers prefer to separate different foods from each other on their plate when consuming them. Without dividers, foods and liquids can mix or flow into each other thus making it difficult to maintain separation between different food portions during a meal. Various types of compartmented disposable plates have been available for many years. Some of these are described in more detail below.
Pulp-molded paper, foamed, and solid plastic compartmented plates can be readily manufactured with tall dividers between the compartments due to their respective methods of manufacture. The pulp molded plates are made by dipping the mold in a fiber slurry thus distributing the fibers over the plate and compartmented divider surfaces. Solid and foamed plastic compartmented plates are produced by thermoforming, heat softening and vacuum stretching the material into the plate mold over the shape. See U.S. Pat. No. 6,440,509 to Littlejohn et al. These products tend to be relatively expensive though vs. pressed paper plates due to their material and/or manufacture method costs. There is also an increased awareness and pressure on these products from environmental concerns (i.e. Perfluorooctanoic acid or PFOA's in pulp molded plates, and single use plastic products) vs. renewable, recyclable, compostable paper alternatives.
Manufacturers have successfully produced and sold pressed paper compartmented plates. The pressed paper compartmented plates commercially sold have low divider heights (< 5/16″) and/or inferior profiles without an outer downturn (i.e., flat flange) resulting in lower product rigidity and food load capability. Taller (> 7/16″) compartmented pressware plates that have been available have a flat flange with no outer downturn. A square compartmented pressware plate is seen in U.S. Pat. No. 5,236,119 to Chu.
Applicant has previously commercially sold a nominal 10″ three compartmented plate with an outer downturn (Dixie® Kids™) that used a 4 radius profile, but only had 9/32″ (0.281″) tall dividers. Applicant has also previously commercially sold a nominal 9″ three compartmented plate with an outer downturn (Krazy Kritters™) that also used a 4 radius profile, but only had 0.25″ tall dividers. The four radius profile is described in U.S. Pat. No. 5,088,640 to Littlejohn. Pactiv recently introduced an EarthChoice® brand three compartment pressed paper plate that has 3/16″ (0.188″) tall dividers. All of these pressware plates have lower compartmented divider heights vs. the pulp molded and foamed/solid plastic products which typically have ½″ or taller divider heights. The lower divider heights only marginally prevent the foods/liquids from mixing with each other.
Pactiv has also sold a three compartmented 7-⅜″ diameter pressed paper plate referred to as ZooPals which had ⅝″ (0.625″) tall dividers, but the plate did not have an outer downturn and was relatively low strength. The two additional compartments were smaller in size and external to the central portion of the plate and meant for condiments such as ketchup with a capacity of about 1 ounce each. See U.S. Pat. No. 7,484,344 to Schiltz et al.
In contrast to pulp molded plates, pressed containers can easily have a continuous functional coating applied to the paperboard prior to forming, resulting in enhanced performance with hot and moist foods; however, forming structural features for pressware paper plates is much more challenging than is the case with pulp molded or plastic plates. The various technologies by which plates are formed, i.e. pulp-molding, paperboard press-forming and thermoforming are not interchangeable, especially in view of the drastic differences in the physics by which plates are formed in these processes. In particular, the necessity of forming strong pleats imposes severe constraints on formation of pressed paperboard plates which are not present in the other formatting technologies. When a container is made by pressing a paperboard blank, the flat blank must be distorted and changed in shape and area in order to form the blank into the desired three-dimensional shape. This necessary distortion results in seams or pleats in the sidewall and rim, the areas of the container which are drawn in toward the center in press-forming the container, resulting from the decrease in the circumference of the formed container as compared to the blank. Unless considerable care is employed during the process of pressing, these seams or pleats can constitute material lines of weakness in the sidewall and rim areas about which such containers tend to bend more readily than do containers having unpleated sidewalls and rims. Forming tall dividers in a pressware plate introduces additional complexities, including pleat forming in undesired areas, hinging of the product and tears in the paperboard, especially in 3 dimensional corners between the bottom, the plate sidewall and the divider sidewall.
SUMMARY OF INVENTIONIt has been found that various features enable the manufacture of strong and rigid pressware plates with tall dividers with a minimum of formation and stacking issues. The plates of the invention have surprising rigidity and strength.
There is provided in a first aspect of the invention a rigid compartmented pressed paper plate with an outer downturn and tall compartment divider heights; preferably with divider heights > 9/32″> 7/16″ or >½″. Compartmented plates of the invention with tall dividers separates foods/liquids from each other and can hold ≥lb of food when held with one hand without buckling or breaking. The inventive plate typically has a FPI geometric mean plate rigidity (MD*CD){circumflex over ( )}0.5≥about 100 grams. “FPI” refers to Foodservice Packaging Institute which provides a rigidity tester for plates, discussed below. Plates of the invention also exhibit a “one hand hold” (lab test) typically of ≥about 1 lb in the large compartment which simulates the maximum capacity of the plate to support a food load while being held in one hand.
As seen in the examples which follow, the outer downturn provides surprising rigidity and strength to the product.
There is provided in a second aspect of the present invention a compartmented pressed paper plate as set forth in the first aspect noted above being further provided with variable radii along divider sidewall(s) to bottom(s) junctions along length(s) to blend 3D corners where paper tears can occur due to localized over stretching. The variable radii optionally may occur in separate areas as shown in the accompanying Figures and described herein. The variable fillets around the plate resolve forming issues, especially tears in the paper due to over-stressing of the paperboard during manufacture. While the fillets reduce compartment volumes somewhat, the effect is minimized by localizing the fillets to 3D corners.
There is provided in a third aspect of the present invention a compartmented pressed paper plate as set forth in the first aspect noted above being further provided with localized height drops (“dip-downs”) at the ends of the divider(s) where the dividers meet the plate sidewall to assist with the take-up of the paperboard materials to prevent localized material pleating/webbing that can result in stack stability issues/tilting, and/or to increase product strength by reducing the hinging tendency of the dividers when the plate is flexed in the machine-direction with the dividers between the two smaller and one larger compartment in a three compartment plate aligned in the cross-direction (+6% per FEA computer modeling). While the plate will flex it will not fail under typical food loads up to about 1 pound. Preferably the height drops or dip downs are ≥⅛″.
There is provided in a fourth aspect of the present invention a compartmented pressed paper plate as set forth in the first aspect noted above being further provided with extra material downturn length lobes (“dog-ears”) at the ends of the divider(s) that provide localized enhanced strength and further reduces divider hinging tendency when flexed. The lobes align with each other in a stack and have acceptable aesthetics thus not requiring post trimming after forming. The lobes result during the formation process since paperboard at the ends of the dividers does not need to be pulled into the die set as much as in other locations between dividers, such that the lobes extend downwardly more than adjacent areas of the flange of the plate. While the lobes can be post-trimmed after formation as noted above, it has been found they do not interfere with stacking and unexpectedly provide a modicum of increased strength to the product.
A particularly preferred embodiment of the invention combines the various features noted above. There is thus provided in accordance with the present invention a compartmented pressware paper plate with tall dividers formed from a paperboard blank comprising a plate bottom defining a bottom surface adjoining and transitioning to a plate sidewall extending around the plate bottom and projecting outwardly and upwardly therefrom, the plate sidewall defining a plate sidewall surface and adjoining a flange flaring outwardly from the sidewall, the plate further comprising one or more tall dividers each having a pair of divider sidewall surfaces and adjoining the plate bottom which transitions to the divider sidewall surfaces, wherein the one or more tall dividers are characterized by a divider height, DH, from the bottom of the plate greater than 9/32″, said one or more tall dividers extending from the sidewall toward a central portion of the plate bottom and being configured to segment the plate bottom into a plurality of serving compartments. The flange is characterized by a height, H, at its apex from the plate bottom and an outward flange downturn extending downwardly a distance, V, with respect to the apex if the flange, wherein the ratio of V:H is from about 0.1 to about 0.75. Transitions between adjoining surfaces of the bottom surface and the divider sidewall surfaces are characterized by variable radii of curvature wherein the variable radii of curvature vary from a first value proximate to transitions between two surfaces to a second value higher than the first value at transitions proximate to the intersection of three surfaces; the variations are preferably progressive over an intermediate distance so as not to interfere with the smoothness of filleted areas of the plate surfaces. The dividers adjoin the sidewall of the plate at a height, SDH, less than DH (thereby defining a divider “dip down”), and the flange is optionally provided with an enhanced downturn in the vicinity of a junction of the one or more dividers with the sidewall, the enhanced downturn having lobes extending downwardly more than adjacent portions of the flange.
An inventive rigid pressed paper compartmented round plate described (and exemplified) herein has an outer downturn and taller dividers (≥ 7/16″) that together provide a functional pressed paper, lower cost option for consumers. The nominal 10″ diameter circular plate described in connection with
For polygonal containers or plates, centrally located scores on the blanks may be employed to facilitate formation.
Further details and advantages are described below in connection with the appended Figures.
The invention is described in detail below with reference to the drawings wherein like numerals designate similar parts and wherein:
The bold lines on
The invention is described in detail below in connection with the Figures for purposes of illustration only. The invention is defined in the appended claims. Unless otherwise indicated, terminology and symbols used herein is given its ordinary meaning consistent with the exemplary definitions set forth immediately below; for example “in.” or” or like terminology following a numeric value indicates inches; # indicates pounds, ft2 or fts indicates square feet and so forth.
The center of a circular plate is the point equidistant from the circumference. In the case of plates having a regular polygonal shape, the center is the point that is equidistant from each vertex or corner. It is also the center of the regular polygon's incircle and circumcircle. For plates having an irregular polygonal shape, or other shape such as an ovoid, ellipsoid or combinations of shapes, the center as the term is used herein is the centroid (center of area) which comes from considering the surface of the shape as having constant density.
A central portion of the plate bottom, a central junction on the plate where the tall dividers meet and like terminology refers to structures proximate the center of the pressware plate.
“Characteristic diameter”, “plate diameter” and like terminology refers to the diameter of a circular plate, or is equal to 2X √A/π (or in alternate representation (4A/π)1/2) for other shapes, where A is the projected area of the finished plate. In a preferred embodiment, plates of the invention have a characteristic diameter of from about 8″ to 12″.
A fillet characteristic radius of curvature refers to a maximum radius of curvature between a divider sidewall and the plate bottom in a fillet.
FPI Rigidity and One Hand Load to Failure testing are carried out as described below. FPI rigidity may also be calculated with finite element analysis (FEA) for purposes of evaluating designs.
“Proximate”, “in the vicinity” and so forth refers to a distance between recited elements of generally 0.35 times the characteristic diameter of the plate or less; typically to a distance between recited elements of 0.25 times the characteristic diameter of the plate or less, and in most cases to a distance between recited elements of 0.1 times the characteristic diameter of the plate or less.
Pressware paperboard plates are a preferred option for disposable plates since the paperboard stock can be typically impregnated with starch and coated on one side with a liquid proof layer or layers comprising a press-applied, water-based coating applied over the inorganic pigment typically applied to the board during manufacturing. Carboxylated styrene-butadiene resins may be used with or without filler if so desired. In addition, for aesthetic reasons, the paperboard stock can be often initially printed before being coated with an overcoat layer. As an example of typical coating material, a first layer of latex coating may be applied over the printed paperboard with a second layer of acrylic coating applied over the first layer. These coatings may be applied either using the conventional printing press used to apply the decorative printing or may be applied using some other form of a conventional press coater. Coatings that can include two pigment (clay) containing layers, with a binder, of about 6 lbs/3,000 ft2 ream or so followed by two acrylic layers of about 0.5-1 lbs/3,000 ft2 ream. The clay containing layers are provided first during board manufacture and the acrylic layers are then applied by press coating methods, e.g., gravure, coil coating, flexographic methods and so forth as opposed to extrusion or film laminating methods which are expensive and may require off-line processing as well as large amounts of coating material. An extruded film, for example, may require 25 lbs/3,000 ft2 ream.
A layer comprising a latex may contain any suitable latex known to the art. By way of example, suitable latexes include styrene-acrylic copolymer, acrylonitrile styrene-acrylic copolymer, polyvinyl alcohol polymer, acrylic acid polymer, ethylene vinyl alcohol copolymer, ethylene-vinyl chloride copolymer, ethylene vinyl acetate copolymer, vinyl acetate acrylic copolymer, styrene-butadiene copolymer and acetate ethylene copolymer. The layer containing latex can include, but can be not limited to, one or more of styrene-acrylic copolymer, styrene-butadiene copolymer, or vinyl acetate-acrylic copolymer. In some examples, the layer containing latex can include vinyl acetate ethylene copolymer. The layer containing latex can include a latex that can be pigmented. Pigmenting the latex increases the coat weight of the layer containing a latex thus reducing runnability problems when using blade coaters to coat the substrate.
Pigmenting the latex also improves the resulting quality of print that may be applied to the coated paperboard. Suitable pigments or fillers include kaolin clay, delaminated clays, structured clays, calcined clays, alumina, silica, aluminosilicates, talc, calcium sulfate, ground calcium carbonates, and precipitated calcium carbonates. The pigment can include kaolin clay and conventional delaminated coating clay. The layer comprising a latex may also contain other additives that are well known in the art to enhance the properties of coated paperboard. By way of example, suitable additives include dispersants, lubricants, defoamers, film-formers, antifoamers, and/or crosslinkers.
Typically, paperboard for pressware containers can include up to about 6 lbs/3,000 ft2 starch; however, the rigidity can be considerably enhanced by using paperboard of about 9 to about 12 lbs/3,000 ft2 starch, as further discussed in U.S. Pat. Nos. 5,938,112 and 5,326,020, the disclosures of which are incorporated herein by reference.
The plates of the invention are prepared from a substantially planar paperboard blank, which is moistened, impregnated with starch and scored prior to insertion and forming in a segmented pressware die-set. The blank may have anywhere from about 35 to 65 scores about its periphery for forming the rim, having a length of from about 1.25″ to 1.75″. Further details are provided in U.S. Pat. No. 8,584,929 to Littlejohn et al.; U.S. Pat. No. 8,047,834 to Sofronie et al.; and U.S. Pat. No. 6,783,720 to Johns et al., as well as in United States Patent Application Publication No. 2017/0065110.
When forming the compartmented pressware of the present invention, it is preferable to form the dividers to their full height, or substantially their full height, prior to final pressing of the container rim in order to reduce tearing of the blank during processing. “Substantially full height” may be anywhere from 75% to 100% of the full height of the dividers in the finished product.
Referring to
As is appreciated from
In order to ameliorate tearing at the 3-dimensional corners 34, there is provided a first plurality of variable fillets 36, optionally a second plurality of variable fillets 38 and a third plurality of fillets 40, as indicated on
Another feature which eases forming issues with tall dividers and provides an area to gather excess material are the “dip downs” or height reductions of the dividers where they meet the sidewall of the plate.
Referring to
The “dip downs” and lobes allow stackability of the plates and provide a modicum of strength enhancement, as discussed hereinafter.
From
The dimensions in Table 1 are forming die set values which correspond to those of formed plate 10. For present purposes, the transition characterized by radius of curvature, R1, is considered to be part of both plate bottom 12 and plate sidewall 16.
Referring to
Divider 22 is aligned along a diameter, while dividers 24, 26 are aligned in a direction offset by an angle of 15° from a diameter as shown. Each of the dividers have terminal portions 62, 64, 66 at plate sidewall 16 and medial portions 68, 70 and 72 between 3-dimensional corners. The 3 tall dividers are in a Y configuration with sweeping direction changes characterized by a radius of curvature, R4, which is suitably of a length of from 0.75″ to 1.5″ such as 1.062″ or 1.281″ or 1.438″ for a nominal 10″ diameter plate.
In a preferred embodiment, terminal portions 62, 64, 66 and medial portions 68, 70 and 72 of dividers 22, 24 and 26 have the structures further described below in connection with
The variable radii of curvature values shown in
Dividers 22, 24AT, 26AT transition about central junction 56AT in an arcuate direction change (R4, discussed above), while Dividers 24AT, 26AT and define a radius of curvature R10 as they project to sidewall 16. R10 is suitable 10.188″ and may optionally be from 8″ to 11″ in the design shown. In some designs, R10 may be anywhere from 0.5 to 1.5 times the characteristic plate diameter, preferably from 0.75 to 1.25 times the characteristic plate diameter.
FPI Rigidity is expressed in grams/0.5″ deflection and is measured with a Foodservice Packaging Institute Rigidity Tester, available from or through the Foodservice Packaging Institute, Inc., Falls Church, Va., 22043 (www.fpi.org). This test is designed to measure the rigidity (i.e., resistance to buckling and bending) of paper and plastic plates, bowls, dishes, and trays by measuring the force required to deflect the rim of these products a distance of 0.5″ while the product is supported at its geometric center. Specifically, the plate specimen is restrained by an adjustable bar on one side and is center supported. The rim or flange side opposite to the restrained side is subjected to 0.5″ deflection by means of a motorized cam assembly equipped with a load cell, and the force (grams) is recorded. The test simulates in many respects the performance of a container as it is held in the hand of a consumer, supporting the weight of the container's contents. A higher FPI value is desirable since this indicates a more rigid product.
FPI Rigidity may also be estimated by finite element analysis (FEA) in both the MD and CD.
Series of 10.25″ circular pressware plates were prepared and tested for FPI Rigidity and Load to Failure (One Hand Hold Maximum). The plates were made from paperboard blanks having a basis weight of 163 lbs/3000 ft2 and 180 lbs/3000 ft2. The plates tested in Tables 2 and 5 3 had the outer flange downturn, the variable radii of curvature between the plate bottom and divider sidewalls, the “dip downs” at the terminal portions of the tall dividers at the plate sidewall and the enhanced downturns described above. All of the plates were identical and had the configuration illustrated in connection with
Details and results of testing appear in Tables 2-7 and Tables 8-9.
10-¼″ Round Compartmented Plate FPI Rigidity and One Hand Hold Maximum Comparisons
Comparing Tables 2 and 3 with Tables 4 and 5, it is seen that the outer downturn at the periphery of the flange had a dramatic, indeed surprising, effect on both FPI Rigidity and One Hand Hold Maximum or Load to Failure. The plates of Tables 4 and 5 without the outer downturn had a geometric mean FPI Rigidity of more than 50% less than corresponding plates of Tables 2 and 3. The plates of Tables 4 and 5 also had Load to Failure values of 20% to 25% less than the plates of Tables 2 and 3; again, a dramatic result.
The plates of Tables 6 and 7, without enhanced downturn lobes, also had lower FPI Rigidity than corresponding plates of Tables 2 and 3, 7% lower GM FPI Rigidity and 13% lower GM FPI Rigidity, respectively. Differences in Load to Failure maximum loads were not readily detectable; that is, were within the same ¼ pound load increments measured.
It is seen in Tables 8, 9 below that an arcuate outer trajectory of the larger dividers provides significant improvements to FPI Rigidity and One Hand Hold Maximum for the plates.
A plate having the features of
FEA (0.014″ thickness, 300,000 psi elastic modulus, 0.29 Poisson ratio) to have a FPI Rigidity value of 141 grams. The identical plate, without divider height reductions or “dip downs” was modeled and analyzed by FEA to have an FPI Rigidity Value of 133 grams, or 6% lower than the plate with the “dip downs”, all other things being equal.
The FPI Rigidity measurements, the Load to Failure testing and the FEA analysis consistently show that the pressware plates of the invention are unexpectedly superior to plates without the salient features of the inventive compartmented pressware plates.
From the foregoing data, it will be appreciated that the compartmented pressware plates of the invention prepared from a paperboard blank having a basis weight of greater than about from 120 or 150 lbs/3000 ft2 (up to about 300 lbs/3000 ft2 or so) exhibit the following: (a) a One
Hand Hold Maximum of at least 1 lb, or at least 1.25 lbs in many cases and (b) an FPI-GM Rigidity of greater than 75 grams, more preferably at least 100 grams, at least 110 grams, at least 115 grams or 120 grams or more.
While circular pressware plates have been described in detail and evaluated for rigidity and strength as above, the inventive plates may be fabricated in a variety of shapes, including square plates, polygonal plates, oval shapes and so forth.
Referring to
In
Blank 300 is also shaped to accommodate gathering of the paperboard about the central junction and dividers more than other areas of the blank. In this regard, the blank has a first span 314 slightly shorter than a second span 316. The blank transitions between the different edge areas shown by way of fillets characterized by a radius of curvature, R11, of about 3″ and an angle of 3° for a nominal 10″ plate, while for other size plates, differing transitions may be employed.
EXEMPLARY EMBODIMENTSThere is thus provided a variety of embodiments of the present invention, wherein Embodiment No. 1 is a compartmented pressware paper plate with tall dividers formed from a paperboard blank comprising a plate bottom adjoining a plate sidewall extending around the plate bottom and projecting outwardly and upwardly therefrom to a flange flaring outwardly from the sidewall, one or more tall dividers adjoining the plate bottom characterized by a divider height, DH, from the bottom of the plate greater than 9/32″, said one or more tall dividers extending from the sidewall to a central portion of the plate bottom and being configured to segment the plate bottom into a plurality of serving compartments, the flange being characterized by a height, H, at its apex from the plate bottom and an outward flange downturn extending downwardly a distance, V, with respect to the apex of the flange, wherein the ratio of V:H is from about 0.1 to about 0.75.
Embodiment No. 2 is a compartmented pressware paper plate with tall dividers formed from a paperboard blank comprising a plate bottom defining a bottom surface adjoining and transitioning to a plate sidewall extending around the plate bottom and projecting outwardly and upwardly therefrom, the plate sidewall defining a plate sidewall surface and adjoining a flange flaring outwardly from the sidewall, the plate further comprising one or more tall dividers each having a pair of divider sidewall surfaces and adjoining the plate bottom which transitions to the divider sidewall surfaces, wherein the one or more tall dividers are characterized by a divider height, DH, from the bottom of the plate greater than 9/32″, said one or more tall dividers extending from the sidewall toward a central portion of the plate bottom and being configured to segment the plate bottom into a plurality of serving compartments, the flange being characterized by a height, H, at its apex from the plate bottom and an outward flange downturn extending downwardly a distance, V, with respect to the apex of the flange, wherein the ratio of V:H is from about 0.1 to about 0.75, wherein transitions between adjoining surfaces of the bottom surface and the divider sidewall surfaces are characterized by variable radii of curvature wherein the variable radii of curvature vary from a first value proximate to transitions between two surfaces to a second value higher than the first value at transitions proximate to the intersection of three surfaces.
Embodiment No. 3 is the compartmented pressware plate according to Embodiment No. 2, wherein the ratio of the second value of variable radii of curvature proximate to the intersection of 3 surfaces to the first value of transitions proximate to transitions between 2 surfaces is from 1.25 to 2.5.
Embodiment No. 4 is the compartmented pressware plate according to Embodiment No. 3, wherein the ratio of the second value of variable radii of curvature proximate to the intersection of 3 surfaces to the first value of transitions proximate to transitions between 2 surfaces is from 1.3 to 2.25.
Embodiment No. 5 is the compartmented pressware plate according to Embodiment No. 4, wherein the ratio of the second value of variable radii of curvature proximate to the intersection of 3 surfaces to the first value of transitions proximate to transitions between 2 surfaces is from 1.35 to 2.1.
Embodiment No. 6 is the compartmented pressware plate according to Embodiment Nos. 2 to 5, wherein the one or more tall dividers have a medial portion between intersections of 3 surfaces wherein the sidewall surfaces of the one or more tall dividers transition from the bottom surface of the plate at a constant medial transition radius of curvature.
Embodiment No. 7 is the compartmented pressware plate according to Embodiment No. 6, wherein the medial transition radius of curvature is from 0.15″ to 0.4″ or 0.225″.
Embodiment No. 8 is the compartmented pressware plate according to Embodiments Nos 2 to 7, wherein one or more regions of the plate proximate to the intersection of 3 surfaces are characterized by a filleted structure having a second value of radius of curvature of from 0.25″ to 0.5″ between the plate bottom and divider sidewall(s).
Embodiment No. 9 is a compartmented pressware paper plate with tall dividers formed from a paperboard blank comprising a plate bottom defining a bottom surface adjoining and transitioning to a plate sidewall extending around the plate bottom and projecting outwardly and upwardly therefrom, the plate sidewall defining a plate sidewall surface and adjoining a flange flaring outwardly from the sidewall, the plate further comprising one or more tall dividers each having a pair of divider sidewall surfaces and adjoining the plate bottom which transitions to the divider sidewall surfaces, wherein the one or more tall dividers are characterized by a divider height, DH, from the bottom of the plate greater than 9/32″, said one or more tall dividers extending from the sidewall toward a central portion of the plate bottom and being configured to segment the plate bottom into a plurality of serving compartments, wherein the one or more tall dividers have an outer terminal portion proximate the sidewall and a medial portion between the terminal portion of the one or more tall dividers and the central portion of the plate, the sidewall surfaces of the one or more tall dividers transitioning from the bottom surface of the plate at a constant medial transition radius of curvature over its medial portion, the outer terminal portion of the one or more tall dividers having a filleted structure with variable radii of curvature, including a fillet characteristic radius of curvature between the divider sidewalls and plate bottom larger than the medial radius of curvature of the medial portion of the one or more tall dividers, the flange being further characterized by a height, H, at its apex from the plate bottom and an outward flange downturn extending downwardly a distance, V, with respect to the apex if the flange, wherein the ratio of V:H is from about 0.1 to about 0.75.
Embodiment No. 10 is the compartmented pressware plate according to Embodiment No. 9, wherein the medial transition radius of curvature is from 0.15″ to 0.4″ or to 0.225″.
Embodiment No. 11 is the compartmented pressware plate according to Embodiment Nos. 8 or 9, wherein the filleted structure of the outer terminal portion of the tall divider includes a first pair of fillets aligned with the medial portion of the one or more tall dividers along the tall divider sidewall surfaces.
Embodiment No. 12 is the compartmented pressware plate according to Embodiment No. 11, wherein the filleted structure of the outer terminal portion of the tall divider includes a second pair of fillets aligned with the outer terminal portion of the one or more tall dividers along the tall divider sidewall surfaces.
Embodiment No. 13 is the compartmented pressware plate according to any one of Embodiments 8 to 12, wherein the ratio of the fillet characteristic radius of curvature to the medial radius of curvature is from 1.25 to 2.5.
Embodiment No. 14 is the compartmented pressware plate according to Embodiment No. 13, wherein the ratio of the fillet characteristic radius of curvature to the medial radius of curvature is from 1.3 to 2.25.
Embodiment No. 15 is the compartmented pressware plate according to Embodiment No. 14, wherein the ratio of the fillet characteristic radius of curvature to the medial radius of curvature is from 1.35 to 2.1.
Embodiment No. 16 is the compartmented pressware plate according to any of Embodiments Nos. 8 to 15, wherein the fillet characteristic radius of curvature is from 0.25″ to 0.5″.
Embodiment No. 17 is a compartmented pressware paper plate with tall dividers formed from a paperboard blank comprising a plate bottom adjoining a plate sidewall extending around the plate bottom and projecting outwardly and upwardly therefrom to a flange flaring outwardly from the sidewall, one or more tall dividers adjoining the plate bottom characterized by a divider height, DH, from the bottom of the plate greater than 9/32″, said one or more tall dividers extending from the sidewall to a central portion of the plate bottom and being configured to segment the plate bottom into a plurality of serving compartments, the flange being characterized by a height, H, at its apex from the plate bottom and an outward flange downturn extending downwardly a distance, V, with respect to the apex if the flange, wherein the ratio of V:H is from about 0.1 to about 0.75, said one or more dividers also adjoining the sidewall of the plate at a height, SDH, less than DH, wherein the flange is optionally provided with an enhanced downturn in the vicinity of a junction of the one or more dividers with the sidewall, the enhanced downturn having lobes extending downwardly more than adjacent portions of the flange.
Embodiment No. 18 is the compartmented pressware plate according to Embodiment No. 17, wherein the ratio of SDH to DH is from 0.15 to 0.75.
Embodiment No. 19 is the compartmented pressware plate according to Embodiment No. 18, wherein the ratio of SDH to DH is from 0.25 to 0.65.
Embodiment No. 20 is the compartmented pressware according to Embodiments Nos. 17, 18 or 19, having lobes extending downwardly a distance of from 0.05″ to 0.4″ more than adjacent portions of the flange.
Embodiment No. 21 is the compartmented pressware according to Embodiments Nos. 17 to 20, wherein the lobes extend downwardly a distance of from 0.1″ to 0.35″ more than adjacent portions of the flange.
Embodiment No. 22 is the compartmented pressware according to Embodiment No. 21, wherein the lobes extend downwardly a distance of from 0.1″ to 0.25″ more than adjacent portions of the flange.
Embodiment No. 23 is a compartmented pressware paper plate with tall dividers formed from a paperboard blank comprising a plate bottom defining a bottom surface adjoining and transitioning to a plate sidewall extending around the plate bottom and projecting outwardly and upwardly therefrom, the plate sidewall defining a plate sidewall surface and adjoining a flange flaring outwardly from the sidewall, the plate further comprising one or more tall dividers each having a pair of divider sidewall surfaces and adjoining the plate bottom which transitions to the divider sidewall surfaces, wherein the one or more tall dividers are characterized by a divider height, DH, from the bottom of the plate greater than 9/32″, said one or more tall dividers extending from the sidewall toward a central portion of the plate bottom and being configured to segment the plate bottom into a plurality of serving compartments, the flange being characterized by a height, H, at its apex from the plate bottom and an outward flange downturn extending downwardly a distance, V, with respect to the apex if the flange, wherein the ratio of V:H is from about 0.1 to about 0.75, wherein transitions between adjoining surfaces of the bottom surface and the divider sidewall surfaces are characterized by variable radii of curvature wherein the variable radii of curvature vary from a first value proximate to transitions between two surfaces to a second value higher than the first value at transitions proximate to the intersection of three surfaces, said one or more dividers also adjoining the sidewall of the plate at a height, SDH, less than DH, wherein the flange is optionally provided with an enhanced downturn in the vicinity of a junction of the one or more dividers with the sidewall, the enhanced downturn having lobes extending downwardly more than adjacent portions of the flange.
Embodiment No. 24 is the compartmented pressware plate according to Embodiment No. 23, wherein the ratio of the second value of variable radii of curvature proximate to the intersection of 3 surfaces to the first value of transitions proximate to transitions between 2 surfaces is from 1.25 to 2.5.
Embodiment No. 25 is the compartmented pressware plate according to Embodiment No. 24, wherein the ratio of the second value of variable radii of curvature proximate to the intersection of 3 surfaces to the first value of transitions proximate to transitions between 2 surfaces is from 1.3 to 2.25.
Embodiment No. 26 is the compartmented pressware plate according to Embodiment No. 25, wherein the ratio of the second value of variable radii of curvature proximate to the intersection of 3 surfaces to the first value of transitions proximate to transitions between 2 surfaces is from 1.35 to 2.1.
Embodiment No. 27 is the compartmented pressware plate according to Embodiment Nos. 23 to 26, wherein the one or more tall dividers have a medial portion between intersections of 3 surfaces wherein the sidewall surfaces of the one or more tall dividers transition from the bottom surface of the plate at a constant medial transition radius of curvature.
Embodiment No. 28 is the compartmented pressware plate according to Embodiment No. 27, wherein the medial transition radius of curvature is from 0.15″ to 0.4″.
Embodiment No. 29 is the compartmented pressware plate according to Embodiment Nos. 23 to 28, wherein one or more regions of the plate proximate to the intersection of 3 surfaces is characterized by a filleted structure having a fillet characteristic radius of curvature of from 0.25″ to 0.5″.
Embodiment No. 30 is the compartmented pressware plate according to Embodiment Nos. 23 to 29, wherein the ratio of SDH to DH is from 0.15 to 0.75.
Embodiment No. 31 is the compartmented pressware plate according to Embodiment No. 30, wherein the ratio of SDH to DH is from 0.25 to 0.65 or 0.4.
Embodiment No. 32 is the compartmented pressware plate according to Embodiment Nos. 23 to 31, having lobes extending downwardly a distance of from 0.05″ to 0.4″ more than adjacent portions of the flange.
Embodiment No. 33 is the compartmented pressware plate according to Embodiment No. 32, wherein the lobes extend downwardly a distance of from 0.1″ to 0.35″ more than adjacent portions of the flange.
Embodiment No. 34 is the compartmented pressware plate according to Embodiment No. 33, wherein the lobes extend downwardly a distance of from 0.1″ to 0.25″ more than adjacent portions of the flange.
Embodiment No. 35 is the compartmented pressware plate according to any of the foregoing Embodiments, wherein the plate has at least 2 tall dividers.
Embodiment No. 36 is the compartmented pressware plate according to Embodiment No. 35, wherein the plate has 3 tall dividers in a Y configuration at a central junction on the plate.
Embodiment No. 37 is the compartmented pressware plate according to Embodiment No. 36, wherein the central junction transitions between dividers with a radius of curvature of from 0.75″ to 1.5″.
Embodiment No. 38 is the compartmented pressware plate according to Embodiment Nos. 36 or 37, wherein at least 2 tall dividers have an arcuate trajectory from the central junction on the plate to the sidewall of the plate. The outwardly projecting dividers define a radius of curvature as they project to sidewall. Suitable radii of curvature for the outward trajectory may be anywhere from 0.5 to 1.5 times the characteristic plate diameter, preferably from 0.75 to 1.25 times the characteristic plate diameter.
Embodiment No. 39 is the compartmented pressware plate according to any of the foregoing Embodiments, wherein the tall dividers have a divider height, DH, of up to ¾″.
Embodiment No. 40 is the compartmented pressware plate according to Embodiment No. 39, wherein the tall dividers have a divider height, DH, of from about 0.3″ to 0.75″.
Embodiment No. 41 is the compartmented pressware plate according to Embodiment No. 39, wherein the tall dividers have a divider height, DH, of from about 0.475″ to 0.625″.
Embodiment No. 42 is the compartmented pressware plate according to any of the foregoing Embodiments, wherein the ratio of V:H is from 0.15 to 0.75.
Embodiment No. 43 is the compartmented pressware plate according to any of the foregoing Embodiments, wherein the ratio of V:H is from 0.2 to 0.75.
Embodiment No. 44 is the compartmented pressware plate according to any of the foregoing Embodiments, wherein the ratio of V:H is from 0.3 to 0.65.
Embodiment No. 45 is the compartmented pressware plate according to Embodiment No. 44, wherein the ratio of V:H is from 0.35 to 0.6.
Embodiment No. 46 is the compartmented pressware plate according to any of the foregoing Embodiments, wherein the compartmented pressware plate is circular.
Embodiment No. 47 is the compartmented pressware plate according to any of Embodiment Nos. 1 to 45, wherein the compartmented pressware plate is polygonal.
Embodiment No. 48 is the compartmented pressware plate according to Embodiment No. 47, wherein the compartmented pressware plate is octagonal.
Embodiment No. 49 is the compartmented pressware plate according to Embodiment Nos. 46, 47 or 48, wherein the compartmented pressware plate has a characteristic diameter of from 8″ to 12″.
Embodiment No. 50 is the compartmented pressware plate according to Embodiment No. 49, wherein the compartmented pressware plate has a characteristic diameter of from 8-½″ to 11″.
Embodiment No. 51 is the compartmented pressware plate according to Embodiment No. 50, wherein the compartmented pressware plate has a characteristic diameter of from 9″ to 10-½″.
Embodiment No. 52 is the compartmented pressware plate according to any of the foregoing Embodiments, wherein the compartmented pressware plate is prepared from a paperboard blank having a basis weight of from 80 lbs/3000 ft2 to 300 lbs/3000 ft2.
Embodiment No. 53 is the compartmented pressware plate according Embodiment No. 52, wherein the compartmented pressware plate is prepared from a paperboard blank having a basis weight of from 145 lbs/3000 ft2 to 240 lbs/3000 ft2.
Embodiment No. 54 is the compartmented pressware plate according Embodiment No. 53, wherein the compartmented pressware plate is prepared from a paperboard blank having a basis weight of from 155 lbs/3000 ft2 to 190 lbs/3000 ft2.
Embodiment No. 55 is a compartmented pressware paper plate with dividers formed from a paperboard blank comprising a plate bottom defining a bottom surface adjoining and transitioning to a plate sidewall extending around the plate bottom and projecting outwardly and upwardly therefrom, the plate sidewall defining a plate sidewall surface and adjoining a flange flaring outwardly from the sidewall, the plate further comprising one or more dividers each having a pair of divider sidewall surfaces and adjoining the plate bottom which transitions to the divider sidewall surfaces, wherein the one or more dividers are characterized by a divider height, DH, from the bottom of the plate, said one or more dividers extending from the sidewall toward a central portion of the plate bottom and being configured to segment the plate bottom into a plurality of serving compartments, wherein transitions between adjoining surfaces of the bottom surface and the divider sidewall surfaces are characterized by variable radii of curvature wherein the variable radii of curvature vary from a first value proximate to transitions between two surfaces to a second value higher than the first value at transitions proximate to the intersection of three surfaces.
Embodiment No. 56 is the compartmented pressware plate according to Embodiment No. 55, wherein the ratio of the second value of variable radii of curvature proximate to the intersection of 3 surfaces to the first value of transitions proximate to transitions between 2 surfaces is from 1.25 to 2.5.
Embodiment No. 57 is the compartmented pressware plate according to Embodiment No. 56, wherein the ratio of the second value of variable radii of curvature proximate to the intersection of 3 surfaces to the first value of transitions proximate to transitions between 2 surfaces is from 1.3 to 2.25.
Embodiment No. 58 is the compartmented pressware plate according to Embodiment No.
57, wherein the ratio of the second value of variable radii of curvature proximate to the intersection of 3 surfaces to the first value of transitions proximate to transitions between 2 surfaces is from 1.35 to 2.1.
Embodiment No. 59 is the compartmented pressware plate according to Embodiment Nos. 55 to 58, wherein the one or more dividers have a medial portion between intersections of 3 surfaces wherein the sidewall surfaces of the one or more dividers transition from the bottom surface of the plate at a constant medial transition radius of curvature.
Embodiment No. 60 is the compartmented pressware plate according to Embodiment No. 59, wherein the medial transition radius of curvature is from 0.15″ to 0.4″.
Embodiment No. 61 is the compartmented pressware plate according to Embodiment Nos. 55 to 60, wherein one or more regions of the plate proximate to the intersection of 3 surfaces are characterized by a filleted structure having a second value of radius of curvature of from 0.25″ to 0.5″ between the plate bottom and divider sidewall(s).
Embodiment No. 62 is the compartmented pressware plate according to Embodiment Nos. 59 to 61, wherein the one or more dividers have an outer terminal portion proximate the sidewall of the plate and between the sidewall of the plate and the medial portion of the divider, the outer terminal portion of the one or more dividers having a filleted structure with variable radii of curvature, including a fillet characteristic radius of curvature between the divider sidewalls and plate bottom larger than the medial radius of curvature of the medial portion of the one or more dividers.
Embodiment No. 63 is the compartmented pressware plate according to Embodiment No. 62, wherein the filleted structure of the outer terminal portion of the divider includes a first pair of fillets aligned with the medial portion of the one or more dividers along the tall divider sidewall surfaces.
Embodiment No. 64 is the compartmented pressware plate according to Embodiment No. 63, wherein the filleted structure of the outer terminal portion of the divider includes a second pair of fillets aligned with the outer terminal portion of the one or more dividers along the divider sidewall surfaces.
Embodiment No. 65 is the compartmented pressware plate according to any one of Embodiment Nos. 62 to 64, wherein the ratio of the fillet characteristic radius of curvature to the medial radius of curvature is from 1.25 to 2.5.
Embodiment No. 66 is the compartmented pressware plate according to Embodiment No. 65, wherein the ratio of the fillet characteristic radius of curvature to the medial radius of curvature is from 1.3 to 2.25.
Embodiment No. 67 is the compartmented pressware plate according to Embodiment No. 66, wherein the ratio of the fillet characteristic radius of curvature to the medial radius of curvature is from 1.35 to 2.1.
Embodiment No. 68 is the compartmented pressware plate according to any of Embodiment Nos. 62 to 67, wherein the fillet characteristic radius of curvature is from 0.25″ to 0.5″.
Embodiment No. 69 is the compartmented pressware plate according to any of
Embodiment Nos. 55 to 68, wherein said one or more dividers adjoin the sidewall of the plate at a height, SDH, less than DH, wherein the flange is optionally provided with an enhanced downturn in the vicinity of a junction of the one or more dividers with the sidewall, the enhanced downturn having lobes extending downwardly more than adjacent portions of the flange.
Embodiment No. 70 is the compartmented pressware plate according to Embodiment No. 69, wherein the ratio of SDH to DH is from 0.15 to 0.75.
Embodiment No. 71 is the compartmented pressware plate according to Embodiment No. 70, wherein the ratio of SDH to DH is from 0.25 to 0.4 or 0.65.
Embodiment No. 72 is the compartmented pressware according to Embodiment Nos. 69 to 71, having lobes extending downwardly a distance of from 0.05″ to 0.4″ more than adjacent portions of the flange.
Embodiment No. 73 is the compartmented pressware according to Embodiment No. 72, wherein the lobes extend downwardly a distance of from 0.1″ to 0.35″ more than adjacent portions of the flange.
Embodiment No. 74 is the compartmented pressware according to Embodiment No. 33, wherein the lobes extend downwardly a distance of from 0.1″ to 0.25″ more than adjacent portions of the flange.
Embodiment No. 75 is a compartmented pressware paper plate with dividers formed from a paperboard blank comprising a plate bottom adjoining a plate sidewall extending around the plate bottom and projecting outwardly and upwardly therefrom to a flange flaring outwardly from the sidewall, one or more dividers adjoining the plate bottom characterized by a divider height, DH, from the bottom of the plate, said one or more dividers extending from the sidewall to a central portion of the plate bottom and being configured to segment the plate bottom into a plurality of serving compartments, said one or more dividers adjoining the sidewall of the plate at a height, SDH, less than DH, wherein the flange is optionally provided with an enhanced downturn in the vicinity of a junction of the one or more dividers with the sidewall, the enhanced downturn having lobes extending downwardly more than adjacent portions of the flange.
Embodiment No. 76 is the compartmented pressware plate according to Embodiment No. 75, wherein the ratio of SDH to DH is from 0.15 to 0.5.
Embodiment No. 77 is the compartmented pressware plate according to Embodiment No. 76, wherein the ratio of SDH to DH is from 0.25 to 0.4.
Embodiment No. 78 is the compartmented pressware plate according to Embodiment Nos. 75, 76 or 79, having lobes extending downwardly a distance of from 0.05″ to 0.4″ more than adjacent portions of the flange.
Embodiment No. 79 is the compartmented pressware plate according to Embodiment Nos. 75 to 78, wherein the lobes extend downwardly a distance of from 0.1″ to 0.35″ more than adjacent portions of the flange.
Embodiment No. 80 is the compartmented pressware plate according to Embodiment No. 79, wherein the lobes extend downwardly a distance of from 0.1″ to 0.25″ more than adjacent portions of the flange.
Embodiment No. 81 is the compartmented pressware plate according to any of Embodiment Nos. 55 to 80, wherein the plate has at least 2 dividers.
Embodiment No. 82 is the compartmented pressware plate according to Embodiment No. 81, wherein the plate has 3 dividers in a Y configuration at a central junction on the plate.
Embodiment No. 83 is the compartmented pressware plate according to Embodiment No. 82, wherein the central junction transitions between dividers with a radius of curvature of from 0.75″ to 1.5″.
Embodiment No. 84 is the compartmented pressware plate according to Embodiment Nos. 82 or 83, wherein at least 2 dividers have an arcuate trajectory from the central junction on the plate to the sidewall of the plate.
Embodiment No. 85 is the compartmented pressware plate according to any of Embodiment Nos. 55 to 84, wherein the dividers have a divider height, DH, of up to ¾″.
Embodiment No. 86 is the compartmented pressware plate according to Embodiment No. 85, wherein the dividers have a divider height, DH, of from about 0.3″ to 0.75″.
Embodiment No. 87 is the compartmented pressware plate according to Embodiment No. 86, wherein the tall dividers have a divider height, DH, of from about 0.475″ to 0.625″.
Embodiment No. 88 is the compartmented pressware plate according to any of Embodiment Nos. 55 to 87, wherein the compartmented pressware plate is circular.
Embodiment No. 89 is the compartmented pressware plate according to any of Embodiment Nos. 55 to 87, wherein the compartmented pressware plate is polygonal.
Embodiment No. 90 is the compartmented pressware plate according to Embodiment No. 89, wherein the compartmented pressware plate is octagonal.
Embodiment No. 91 is the compartmented pressware plate according to Embodiment Nos. 88, 89 or 90, wherein the compartmented pressware plate has a characteristic diameter of from 8″ to 12″.
Embodiment No. 92 is the compartmented pressware plate according to Embodiment No. 91, wherein the compartmented pressware plate has a characteristic diameter of from 8-½″ to 11″.
Embodiment No. 93 is the compartmented pressware plate according to Embodiment No. 92, wherein the compartmented pressware plate has a characteristic diameter of from 9″ to 10-½″.
Embodiment No. 94 is the compartmented pressware plate according to any of Embodiment Nos. 55 to 93, wherein the compartmented pressware plate is prepared from a paperboard blank having a basis weight of from 80 lbs/3000 ft2 to 300 lbs/3000 ft2.
Embodiment No. 95 is the compartmented pressware plate according Embodiment No. 94, wherein the compartmented pressware plate is prepared from a paperboard blank having a basis weight of from 145 lbs/3000 ft2 to 240 lbs/3000 ft2.
Embodiment No. 96 is the compartmented pressware plate according Embodiment No. 95, wherein the compartmented pressware plate is prepared from a paperboard blank having a basis weight of from 155 lbs/3000 ft2 to 190 lbs/3000 ft2.
While the invention has been described in connection with numerous examples, it will be appreciated by one of skill in the art that plates, bowls, oval platters and trays and so forth having various shapes and sizes may be developed with the inventive characteristics. Some may be square or rectangular with rounded corners, triangular, multi-sided, polygonal and similar shape having the profiles and compartments as described. So also, instead of using a single paperboard layer blank, a composite paperboard blank may be used. For example, a container of the invention may be formed from a composite paperboard material wherein the containers are formed by laminating three separate paperboard layers to one another in the form of the container having the shapes described herein. The particular manipulative steps of forming a composite plate are discussed in greater detail in U.S. Pat. Nos. 6,039,682, 6,186,394 and 6,287,247. In view of the foregoing discussion, relevant knowledge in the art and references discussed above in connection with the foregoing description including the Detailed Description and Background of the Invention, the disclosures of which are all incorporated herein by reference, further description is deemed unnecessary. In addition, it should be understood from the foregoing discussion that aspects of the invention and portions of various embodiments may be combined or interchanged either in whole or in part. Containers of the invention thus provide for increases in FPI Rigidity, as well as an improved ability to support a load. Modifications to the specific embodiments described above, within the spirit and scope of the present invention as is set forth in the appended claims, will be readily apparent to those of skill in the art.
Claims
1. A compartmented pressware paper plate with tall dividers formed from a paperboard blank comprising a plate bottom adjoining a plate sidewall extending around the plate bottom and projecting outwardly and upwardly therefrom to a flange flaring outwardly from the sidewall, one or more tall dividers adjoining the plate bottom characterized by a divider height, DH, from the bottom of the plate greater than 9/32″, said one or more tall dividers extending from the sidewall to a central portion of the plate bottom and being configured to segment the plate bottom into a plurality of serving compartments, the flange being characterized by a height, H, at its apex from the plate bottom and an outward flange downturn extending downwardly a distance, V, with respect to the apex of the flange, wherein the ratio of V:H is from about 0.1 to about 0.75.
2. The compartmented pressware plate with tall dividers formed from a paperboard blank according to claim 1, wherein the tall dividers have a divider height, DH, of from about 0.3″ to 0.75″.
3. The compartmented pressware plate with tall dividers formed from a paperboard blank according to claim 1, wherein the ratio of V:H is from 0.3 to 0.65.
4. The compartmented pressware paper plate with tall dividers formed from a paperboard blank according to claim 1, comprising a plate bottom defining a bottom surface adjoining and transitioning to a plate sidewall extending around the plate bottom and projecting outwardly and upwardly therefrom, the plate sidewall defining a plate sidewall surface and adjoining a flange flaring outwardly from the sidewall, wherein transitions between adjoining surfaces of the bottom surface and the divider sidewall surfaces are characterized by variable radii of curvature wherein the variable radii of curvature vary from a first value proximate to transitions between two surfaces to a second value higher than the first value at transitions proximate to the intersection of three surfaces.
5. The compartmented pressware plate with tall dividers formed from a paperboard blank according to claim 4 wherein the ratio of the second value of variable radii of curvature proximate to the intersection of 3 surfaces to the first value of transitions proximate to transitions between 2 surfaces is from 1.25 to 2.5.
6. The compartmented pressware plate with tall dividers formed from a paperboard blank according to claim 4, wherein the ratio of the second value of variable radii of curvature proximate to the intersection of 3 surfaces to the first value of transitions proximate to transitions between 2 surfaces is from 1.35 to 2.1.
7. The compartmented pressware plate with tall dividers formed from a paperboard blank according to claim 4, wherein one or more regions of the plate proximate to the intersection of 3 surfaces are characterized by a filleted structure having a second value of radius of curvature of from 0.25″ to 0.5″ between the plate bottom and divider sidewall(s).
8. The compartmented pressware paper plate with tall dividers formed from a paperboard blank according to claim 1, wherein the one or more tall dividers have an outer terminal portion proximate the sidewall and a medial portion between the terminal portion of the one or more tall dividers and the central portion of the plate, the sidewall surfaces of the one or more tall dividers transitioning from the bottom surface of the plate at a constant medial transition radius of curvature over its medial portion, the outer terminal portion of the one or more tall dividers having a filleted structure with variable radii of curvature, including a fillet characteristic radius of curvature between the divider sidewalls and plate bottom larger than the medial radius of curvature of the medial portion of the one or more tall dividers.
9. The compartmented pressware plate with tall dividers formed from a paperboard blank according to claim 8, wherein the medial transition radius of curvature is from 0.15″ to 0.40″.
10. The compartmented pressware plate with tall dividers formed from a paperboard blank according to claim 8, wherein the filleted structure of the outer terminal portion of the tall divider includes a first pair of fillets aligned with the medial portion of the one or more tall dividers along the tall divider sidewall surfaces.
11. The compartmented pressware plate with tall dividers formed from a paperboard blank according to claim 10, wherein the filleted structure of the outer terminal portion of the tall divider includes a second pair of fillets aligned with the outer terminal portion of the one or more tall dividers along the tall divider sidewall surfaces.
12. The compartmented pressware paper plate with tall dividers formed from a paperboard blank according to claim 1, wherein said one or more dividers adjoining the sidewall of the plate at a height, SDH, less than DH, wherein the flange is optionally provided with an enhanced downturn in the vicinity of a junction of the one or more dividers with the sidewall, the enhanced downturn having lobes extending downwardly more than adjacent portions of the flange.
13. The compartmented pressware plate with tall dividers formed from a paperboard blank according to claim 12, wherein the ratio of SDH to DH is from 0.15 to 0.75.
14. The compartmented pressware plate with tall dividers formed from a paperboard blank according to claim 13, wherein the ratio of SDH to DH is from 0.25 to 0.65.
15. The compartmented pressware plate with tall dividers formed from a paperboard blank according to claim 12, wherein the lobes extend downwardly a distance of from 0.1″ to 0.35″ more than adjacent portions of the flange.
16. The compartmented pressware paper plate with tall dividers formed from a paperboard blank according to claim 1, wherein transitions between adjoining surfaces of the bottom surface and the divider sidewall surfaces are characterized by variable radii of curvature wherein the variable radii of curvature vary from a first value proximate to transitions between two surfaces to a second value higher than the first value at transitions proximate to the intersection of three surfaces, said one or more dividers also adjoining the sidewall of the plate at a height, SDH, less than DH, wherein the flange is optionally provided with an enhanced downturn in the vicinity of a junction of the one or more dividers with the sidewall, the enhanced downturn having lobes extending downwardly more than adjacent portions of the flange.
17. The compartmented pressware plate with tall dividers formed from a paperboard blank according to claim 1, wherein the plate has 3 tall dividers in a Y configuration at a central junction on the plate.
18. The compartmented pressware plate with tall dividers formed from a paperboard blank according to claim 17, wherein the central junction transitions between dividers with a radius of curvature of from 0.75″ to 1.5″.
19. The compartmented pressware plate with tall dividers formed from a paperboard blank according to claim 17, wherein the plate has 3 tall dividers in a Y configuration at a central junction on the plate, two of which are longer than the third and extend outwardly in an arcuate trajectory from the central junction.
20. The compartmented pressware plate with tall dividers formed from a paperboard blank according to claim 19, wherein the dividers projecting outwardly in an arcuate trajectory define a radius of curvature as they project to sidewall of from 0.5 to 1.5 times the characteristic plate diameter.
21. The compartmented pressware plate with tall dividers formed from a paperboard blank according to claim 19, wherein the dividers projecting outwardly in an arcuate trajectory define a radius of curvature as they project to sidewall of from 0.75 to 1.25 times the characteristic plate diameter.
22. The compartmented pressware plate with tall dividers formed from a paperboard blank according to claim 1, formed from a polygonal paperboard blank.
23. The compartmented pressware plate with tall dividers formed from a paperboard blank according to claim 1, formed from a polygonal paperboard blank provided with scores spaced away from the periphery in a central portion of the blank and positioned to facilitate divider formation in the plate.
24. A compartmented pressware paper plate with dividers formed from a paperboard blank comprising a plate bottom defining a bottom surface adjoining and transitioning to a plate sidewall extending around the plate bottom and projecting outwardly and upwardly therefrom, the plate sidewall defining a plate sidewall surface and adjoining a flange flaring outwardly from the sidewall, the plate further comprising one or more dividers each having a pair of divider sidewall surfaces and adjoining the plate bottom which transitions to the divider sidewall surfaces, wherein the one or more dividers are characterized by a divider height, DH, from the bottom of the plate, said one or more dividers extending from the sidewall toward a central portion of the plate bottom and being configured to segment the plate bottom into a plurality of serving compartments, wherein transitions between adjoining surfaces of the bottom surface and the divider sidewall surfaces are characterized by variable radii of curvature wherein the variable radii of curvature vary from a first value proximate to transitions between two surfaces to a second value higher than the first value at transitions proximate to the intersection of three surfaces.
25. A compartmented pressware paper plate with dividers formed from a paperboard blank comprising a plate bottom adjoining a plate sidewall extending around the plate bottom and projecting outwardly and upwardly therefrom to a flange flaring outwardly from the sidewall, one or more dividers adjoining the plate bottom characterized by a divider height, DH, from the bottom of the plate, said one or more dividers extending from the sidewall to a central portion of the plate bottom and being configured to segment the plate bottom into a plurality of serving compartments, said one or more dividers adjoining the sidewall of the plate at a height, SDH, less than DH, wherein the flange is optionally provided with an enhanced downturn in the vicinity of a junction of the one or more dividers with the sidewall, the enhanced downturn having lobes extending downwardly more than adjacent portions of the flange.
Type: Application
Filed: Feb 27, 2023
Publication Date: Sep 7, 2023
Inventor: Mark B. Littlejohn (Appleton, WI)
Application Number: 18/175,029