Microwavable crispy wrapped or enrobed foods that have a crispy exterior texture and retain moisture in an interior filling after microwaving. The crispy exterior is formed from a batter that may comprise soft wheat cake flour, oxidized tapioca starch, and rice flour. The wrapped or enrobed foods may be cooked, frozen, and reheated in the microwave to produce a crispy product.
Microwavable crispy wrapped or enrobed foods that have a crispy exterior texture and retain moisture in an interior filling after microwaving. The crispy exterior is formed from a batter that may comprise soft wheat cake flour, oxidized tapioca starch, and rice flour. The wrapped or enrobed foods may be cooked, frozen, and reheated in the microwave to produce a crispy product.
A23P 20/20 - Making of laminated, multi-layered, stuffed or hollow foodstuffs, e.g. by wrapping in preformed edible dough sheets or in edible food containers
A21D 13/31 - Filled, to be filled or stuffed products filled before baking
4.
FROZEN DOUGH PRODUCT AND METHOD FOR MAKING THE SAME
A proofed frozen dough includes a dough mixture of flour, water, and optionally additives; gas bubbles dispersed throughout the dough matrix; a spent yeast component; and a preserved yeast component. According to some aspects, the preserved yeast component includes encapsulated yeast, fat-coated yeast, non-hydrated active dry yeast, non-hydrated instant yeast, non-hydrated semi-dry yeast, non-hydrated frozen yeast, or a combination thereof. A frozen dough product can be prepared by mixing dough ingredients to produce a dough composition, where the dough ingredients include water, flour, a first yeast, and a second yeast; proofing the dough, where during proofing the first yeast is spent and the second yeast is preserved; and freezing the dough after proofing.
The present disclosure generally relates to articles and methods for handling food items. In one aspect, an article for receiving or holding a food item comprises: a blade; and a rim extending along at least one side of the blade. In another aspect, a method of handling a food item using an article comprises a blade and a rim extending along at least one side of the blade, the method comprising: gripping or holding a part of the rim by hand; causing the food item to be placed onto the blade; and moving the article containing the food item therein to a desired location.
A47J 43/28 - Other culinary hand implements, e.g. spatulas, pincers, forks or like food holders, ladles, skimming ladles, cooking spoonsSpoon-holders attached to cooking pots
The present disclosure generally relates to articles and methods for handling food items. In one aspect, an article for receiving or holding a food item comprises: a blade; and a rim extending along at least one side of the blade. In another aspect, a method of handling a food item using an article comprises a blade and a rim extending along at least one side of the blade, the method comprising: gripping or holding a part of the rim by hand; causing the food item to be placed onto the blade; and moving the article containing the food item therein to a desired location.
A47J 43/28 - Other culinary hand implements, e.g. spatulas, pincers, forks or like food holders, ladles, skimming ladles, cooking spoonsSpoon-holders attached to cooking pots
The present disclosure generally relates to articles and methods for handling food items. In one aspect, an article for receiving or holding a food item comprises: a blade; and a rim extending along at least one side of the blade. In another aspect, a method of handling a food item using an article comprises a blade and a rim extending along at least one side of the blade, the method comprising: gripping or holding a part of the rim by hand; causing the food item to be placed onto the blade; and moving the article containing the food item therein to a desired location.
A47J 43/28 - Other culinary hand implements, e.g. spatulas, pincers, forks or like food holders, ladles, skimming ladles, cooking spoonsSpoon-holders attached to cooking pots
Paper-based packages and methods of making the same are disclosed. In one example, a semi-rigid package comprises: a base, a first side portion, and a second side portion. The base comprises two opposed major walls and two longitudinal side walls opposed to each other. The first side portion and a second side portion are integrally formed with the base. The two side portions are respectively connected to the base along the longitudinal direction, and each side portion comprises two opposed side panels, two tapered corner portions opposed to each other, and a closure in a transverse direction. Each side panel is connected to the adjacent major wall along a transverse line, and the two opposed side panels are jointed to form the closure. At least one of the side portions may be substantially compacted and form a substantially flat transverse side wall.
B65D 75/10 - Articles or materials wholly enclosed in single sheets or wrapper blanks in sheets or blanks initially folded to form tubes with the ends of the tube closed by twisting
Paper-based packages and methods of making the same are disclosed. In one example, a semi-rigid package comprises: a base, a first side portion, and a second side portion. The base comprises two opposed major walls and two longitudinal side walls opposed to each other. The first side portion and a second side portion are integrally formed with the base. The two side portions are respectively connected to the base along the longitudinal direction, and each side portion comprises two opposed side panels, two tapered corner portions opposed to each other, and a closure in a transverse direction. Each side panel is connected to the adjacent major wall along a transverse line, and the two opposed side panels are jointed to form the closure. At least one of the side portions may be substantially compacted and form a substantially flat transverse side wall.
B65D 75/10 - Articles or materials wholly enclosed in single sheets or wrapper blanks in sheets or blanks initially folded to form tubes with the ends of the tube closed by twisting
Paper-based packages and methods of making the same are disclosed. In one example, a semi-rigid package comprises: a base, a first side portion, and a second side portion. The base comprises two opposed major walls and two longitudinal side walls opposed to each other. The first side portion and a second side portion are integrally formed with the base. The two side portions are respectively connected to the base along the longitudinal direction, and each side portion comprises two opposed side panels, two tapered corner portions opposed to each other, and a closure in a transverse direction. Each side panel is connected to the adjacent major wall along a transverse line, and the two opposed side panels are jointed to form the closure. At least one of the side portions may be substantially compacted and form a substantially flat transverse side wall.
B65D 75/00 - Packages comprising articles or materials partially or wholly enclosed in strips, sheets, blanks, tubes or webs of flexible sheet material, e.g. in folded wrappers
B65B 9/13 - Enclosing successive articles or quantities of material, in preformed tubular webs, or in webs formed into tubes around filling nozzles, e.g. extruded tubular webs the preformed tubular webs being supplied in a flattened state
B65B 61/06 - Auxiliary devices, not otherwise provided for, for operating on sheets, blanks, webs, binding material, containers or packages for severing webs, or for separating joined packages by cutting
A proofed frozen dough includes a dough mixture of flour, water, and optionally additives; gas bubbles dispersed throughout the dough matrix; a spent yeast component; and a preserved yeast component. According to some aspects, the preserved yeast component includes encapsulated yeast, fat-coated yeast, non-hydrated active dry yeast, non-hydrated instant yeast, non-hydrated semi-dry yeast, non-hydrated frozen yeast, or a combination thereof. A frozen dough product can be prepared by mixing dough ingredients to produce a dough composition, where the dough ingredients include water, flour, a first yeast, and a second yeast; proofing the dough, where during proofing the first yeast is spent and the second yeast is preserved; and freezing the dough after proofing.
The present invention discloses a method for the preparation of ready-to-cook frozen dough products. The method comprises preparing a dough made of flour, water and yeast, and optional additives; portioning the dough to product sizes; making up the dough to desired sizes, shapes and ornamental configurations; freezing the dough; subjecting the dough to at least one freeze-thaw cycling; and refreezing the dough. Dough products are cooked directly from their frozen states to produce finished goods. Dough and cooked articles using the present invention have quality characteristics comparable to those made using conventional fermentation and proofing prior to cooking.
The present invention discloses a microwaveable frozen bakery that has a more appealing color, fresher aroma and a softer inner texture compared to products of prior art when prepared using a microwave oven for final cooking before consumption. The product has a sealed golden brown colored skin with a baked appearance but without the large amounts of moisture loss during preparation compared to its baked product counterpart, rendering a higher moisture preservation in the bakery. When microwave cooked, the high moisture crumb and sealed skin compensate or prevent moisture loss and produces a softer bread texture. Method of preparation comprises mixing a dough composed of flour, water, yeast and other additives, portioning and making up the dough, fermenting, proofing, steaming, and quickly baking the dough at high heat oven, where a sealed golden brown colored skin and a high moisture crumb are developed, and freezing the bakery.
A method for stabilizing cheese proteins includes preparing a cheese mass comprising cheese curds and whey; adding a stabilizing additive to the cheese mass; straining the cheese mass to separate a cheese curd and whey; and forming the cheese curd into a cheese comprising about 18 to about 35 % protein. In some embodiments, the method is modified to allow for a gentler cheese manufacturing process. A cheese composition may include cheese; about 18 to about 35 % protein comprising about 0.01 to about 25 % of intact protein segments by weight of the protein; and about 0.001 to about 5 % of a stabilizing additive.
A bakery product is produced by mixing ingredients to produce a dough composition, the ingredients including water, flour, and thermostable yeast; making up a raw bakery product having a first volume from the dough composition; leavening, freezing, and baking the frozen raw bakery product to produce a finished bakery product. Leavening includes resting and not proofing or fermentation. After leavening and immediately prior to baking the raw bakery product has a second volume that is less than 150% of the first volume. The finished bakery product has a third volume that is at least 200% of the first volume. A packaged ready-to-bake frozen dough product includes a frozen dough product having a dough matrix; thermally stable yeast; and a plurality of air cells, at least 90% of the air cells being smaller than 4 mm, and a packaging including instructions to bake the dough without proofing or fermenting the dough.
A bakery product is produced by mixing ingredients to produce a dough composition, the ingredients including water, flour, and thermostable yeast; making up a raw bakery product having a first volume from the dough composition; leavening, freezing, and baking the frozen raw bakery product to produce a finished bakery product. Leavening includes resting and not proofing or fermentation. After leavening and immediately prior to baking the raw bakery product has a second volume that is less than 150 % of the first volume. The finished bakery product has a third volume that is at least 200 % of the first volume. A packaged ready-to-bake frozen dough product includes a frozen dough product having a dough matrix; thermally stable yeast; and a plurality of air cells, at least 90 % of the air cells being smaller than 4 mm, and a packaging including instructions to bake the dough without proofing or fermenting the dough.
A proofed frozen dough includes a dough mixture of flour, water, and optionally additives; gas bubbles dispersed throughout the dough matrix; a spent yeast component; and a preserved yeast component. According to some aspects, the preserved yeast component includes encapsulated yeast, fat-coated yeast, non-hydrated active dry yeast, non-hydrated instant yeast, non-hydrated semi-dry yeast, non-hydrated frozen yeast, or a combination thereof. A frozen dough product can be prepared by mixing dough ingredients to produce a dough composition, where the dough ingredients include water, flour, a first yeast, and a second yeast; proofing the dough, where during proofing the first yeast is spent and the second yeast is preserved; and freezing the dough after proofing.
A proofed frozen dough includes a dough mixture of flour, water, and optionally additives; gas bubbles dispersed throughout the dough matrix; a spent yeast component; and a preserved yeast component. According to some aspects, the preserved yeast component includes encapsulated yeast, fat-coated yeast, non-hydrated active dry yeast, non-hydrated instant yeast, non-hydrated semi-dry yeast, non-hydrated frozen yeast, or a combination thereof. A frozen dough product can be prepared by mixing dough ingredients to produce a dough composition, where the dough ingredients include water, flour, a first yeast, and a second yeast; proofing the dough, where during proofing the first yeast is spent and the second yeast is preserved; and freezing the dough after proofing.
A microwave packaging material including a plurality of susceptors is disclosed. Each susceptor includes a plastic film or polymer with a metal layer on one surface of the plastic film and a paper adhered to the plastic film opposite the metal layer. A patterned adhesive is bonded between a first susceptor layer and a second susceptor layer in a pattern bond creating sealed air pockets. A paper board substrate is adhered using an adhesive in a bond pattern to one of the susceptor layers facing the metal of the respective susceptor layer to provide the microwave packing material rigidity. Upon exposure to microwave energy in a microwave oven, moisture is trapped between the paper board substrate and the susceptor layer creating a vapor pressure that causes the sealed air pockets to form expanded air pockets.
B65D 81/34 - Containers, packaging elements, or packages, for contents presenting particular transport or storage problems, or adapted to be used for non-packaging purposes after removal of contents for packaging foodstuffs intended to be cooked or heated within the package
B65D 75/02 - Articles partially enclosed in folded or wound strips or sheets, e.g. wrapped newspapers
A23L 5/10 - General methods of cooking foods, e.g. by roasting or frying
A food composition capable of maintaining a crunchy texture after freezing and reheating is disclosed. The food composition includes a crust or an outer casing having a dough-based matrix or a batter-based matrix with a thickness of about 2 to about 150 mm, and texture modifying particles dispersed throughout the matrix. The texture modifying particles generally comprise about 12 to about 40 % by weight of the food composition and provide the food composition with a crunchy texture. The texture modifying particles may be crushed particles of food products, such as fried grain chips, fried vegetable chips, extruded cereals, extruded crackers, or combinations thereof.
A press assembly for forming a food product where the press assembly includes a cutting die including a body that extends from a proximal end to a distal end. The proximal end has an irregular shape and a sharp edge configured to cut the food product into the irregular shape. The body has an interior surface surrounding an interior space. The press assembly further includes a pressure plate arranged within the interior space. The pressure plate includes a pressing surface including a first zone and a second zone surrounding and extending from the first zone at a taper angle such that an outer end of the second zone is recessed from an inner end adjacent the first zone. The cutting die and the pressure plate cooperate to press and cut the food product. The food product is also described.
A press assembly for forming a food product where the press assembly includes a cutting dye including a body that extends from a proximal end to a distal end. The proximal end has an irregular shape and a sharp edge configured to cut the food product into the irregular shape. The body has an interior surface surrounding an interior space. The press assembly further includes a pressure plate arranged within the interior space. The pressure plate includes a pressing surface including a first zone and a second zone surrounding and extending from the first zone at a taper angle such that an outer end of the second zone is recessed from an inner end adjacent the first zone. The cutting dye and the pressure plate cooperate to press and cut the food product. The food product is also described.
A microwave packaging material includes a plurality of susceptors where each susceptor includes a plastic film or polymer with a metal layer on one surface of the plastic film and a paper adhered to the plastic film opposite the metal layer. A patterned adhesive is bonded between a first susceptor layer and a second susceptor layer in a pattern bond creating sealed air pockets. A paper board substrate is adhered using an adhesive in a bond pattern to one of the susceptor layers to provide the microwave packing material rigidity. Upon exposure to microwave energy in a microwave oven, moisture is trapped between the paper board substrate and the susceptor layer creating a vapor pressure that causes the sealed air pockets to form expanded air pockets.
B65D 81/34 - Containers, packaging elements, or packages, for contents presenting particular transport or storage problems, or adapted to be used for non-packaging purposes after removal of contents for packaging foodstuffs intended to be cooked or heated within the package
B65D 75/02 - Articles partially enclosed in folded or wound strips or sheets, e.g. wrapped newspapers
27.
Microwave package for single-step cooking of multi-component foodstuffs
A microwaveable container for transporting, freezing, storing, and cooking a multi-component foodstuff includes a tray having a base portion and a lid portion and employs a susceptor in combination with steam and venting to cook the multi-component foodstuff in a single microwave cooking step.
B65D 81/34 - Containers, packaging elements, or packages, for contents presenting particular transport or storage problems, or adapted to be used for non-packaging purposes after removal of contents for packaging foodstuffs intended to be cooked or heated within the package
B65D 43/16 - Non-removable lids or covers hinged for upward or downward movement
A cover shell and container assembly comprising the cover shell and a tray or pan is disclosed. The cover shell includes inward projecting standoffs which restrict movement of a food product in the pan or tray and reduces damage to decorative elements of the food product during distribution and/or transport.
B65D 85/36 - Containers, packaging elements or packages, specially adapted for particular articles or materials for articles particularly sensitive to damage by shock or pressure for bakery products, e.g. biscuits
A method of making a cooked food product having a fried appearance comprises assembling a food product having a weight of approximately 1 to 4 ounces (28.3 to 113.4 grams). The food product is heated with microwave energy at a frequency of approximately 800 to 3000 MHz, at a power of approximately 0 to 50 Watts per ounce (28.3 grams) of product, and for approximately 0 to 80 seconds. The food product is coated with a coating layer to form a coated food product. The coated food product is heated in an impingement oven at a temperature of approximately 400 to 600° F. (200 to 325° C.) for less than approximately 140 seconds to form the cooked food product with a fried appearance.
patents
