Patent application number | Description | Published |
20090238935 | PRODUCTION OF STABILIZED WHOLE GRAIN FLOUR AND PRODUCTS THEREOF - A stabilized bran component and a stabilized whole grain flour containing the component are produced by subjecting a bran-enriched coarse fraction which contains bran, germ and starch to grinding or milling to reduce grittiness of the coarse fraction without substantially damaging the starch due to abrasion. The coarse fraction may be stabilized by heating to substantially reduce the lipase and lipoxygenase activity of the coarse fraction without substantial gelatinization of the starch. High levels of natural antioxidants and vitamins are retained while avoiding substantial acrylamide formation during the stabilization. The stabilized coarse fraction or stabilized bran component may be combined with a fine fraction which contains predominantly endosperm to obtain a stabilized whole grain flour. The stabilized whole grain flours and the stabilized bran component exhibit extended shelf life and may be used for making baked goods, such as cookies, with desirable oven spread, and a non-gritty mouthfeel. | 09-24-2009 |
20090291169 | Apparatus and Method for Producing Sandwich Cookie Having Dissimilarly-Sized Base Cakes - A cookie cup sandwich cookie having dissimilarly-sized base cakes is continuously produced by applying a layer of filler cream to a lower base cake and applying an upper base cake to the lower base cake so that the outer periphery of the upper base cake surrounds the layer of filler cream. The apparatus for the production of the sandwich cookies includes at least one rotary molder for producing lower base cakes and upper base cakes having different sizes, a filler cream depositor that deposits a layer of filler cream on each of the lower base cakes, and a conveyer system for transporting and at least substantially concentrically aligning the dissimilarly sized lower and upper base cakes. | 11-26-2009 |
20120189757 | PRODUCTION OF STABILIZED WHOLE GRAIN FLOUR AND PRODUCTS THEREOF - A stabilized bran component and a stabilized whole grain flour containing the component are produced by subjecting a bran-enriched coarse fraction which contains bran, germ and starch to grinding or milling to reduce grittiness of the coarse fraction without substantially damaging the starch due to abrasion. The coarse fraction may be stabilized by heating to substantially reduce the lipase and lipoxygenase activity of the coarse fraction without substantial gelatinization of the starch. High levels of natural antioxidants and vitamins are retained while avoiding substantial acrylamide formation during the stabilization. The stabilized coarse fraction or stabilized bran component may be combined with a fine fraction which contains predominantly endosperm to obtain a stabilized whole grain flour. The stabilized whole grain flours and the stabilized bran component exhibit extended shelf life and may be used for making baked goods, such as cookies, with desirable oven spread, and a non-gritty mouthfeel. | 07-26-2012 |
20120196013 | PRODUCTION OF STABILIZED WHOLE GRAIN WHEAT FLOUR AND PRODUCTS THEREOF - A stabilized bran component and stabilized whole grain wheat flour containing the component are produced by subjecting a bran-enriched coarse fraction which contains bran, germ and starch to grinding or milling to reduce grittiness of the coarse fraction without substantially damaging the starch due to abrasion. The coarse fraction may be stabilized by heating to substantially reduce the lipase and lipoxygenase activity of the coarse fraction without substantial starch gelatinization. High levels of natural antioxidants and vitamins are retained while avoiding substantial acrylamide formation during the stabilization. The stabilized coarse fraction or stabilized bran component may be combined with a fine fraction which contains predominantly endosperm to obtain a stabilized whole grain wheat flour. The stabilized whole grain wheat flours and stabilized bran component exhibit extended shelf life and may be used for making baked goods, such as cookies, with desirable oven spread, and a non-gritty mouthfeel. | 08-02-2012 |
20130011541 | PRODUCTION OF THIN, IRREGULAR CHIPS WITH SCALLOPED EDGES AND SURFACE BUBBLES - A dough sheet for producing thin, baked chips is obtained continuously by compressing a dough sheet to a thickness of less than or equal to about 0.035 inch between counter-rotating gauge rolls while maintaining the surface of each gauge roll at a temperature of about 85° F. to about 95° F. Maintaining the gauge roll surface temperature at about 85° F. to about 95° F. avoids sticking, tearing, and shredding of the thin dough sheet as it is compressed and transferred by the gauge rolls, even at high production rates or line speeds. A rotary cutter is employed to obtain thin, irregularly shaped, scallop-edged snacks in a variety of shapes from a single dough sheet without producing dough scraps between the pieces. | 01-10-2013 |
Patent application number | Description | Published |
20100028516 | PRODUCTION OF COOKIES HAVING LARGE PARTICULATES USING ULTRASONIC WIRECUTTING - A method for the continuous production of cookies having a high content of large inclusions, such as chocolate chips, nuts, and fruit pieces includes extruding a cookie dough containing the inclusions through a die orifice to obtain an extrudate dough rope, and cutting the extrudate dough rope with an ultrasonic cutting blade. The ultrasonic cutting severs the extrudate dough rope into dough pieces which fall onto a moving conveyer into a substantially uniform or regular array for uniform baking. The ultrasonic cutter is controlled to provide a roughened top surface on a dough piece to provide a home baked appearance upon baking, while cutting through the inclusions without substantial displacement of the inclusions which would cause pock marks on the surface of the dough piece, and without substantial dough piece weight variation. | 02-04-2010 |
20100124593 | RIBBON CUTTER APPARATUS AND METHOD FOR MAKING SANDWICH BAKED GOODS - A method for the continuous production of sandwich baked goods having a high volume of filler includes conveying a bottom base cake, detecting the position of the base cake, and extruding a filler through a die aperture to form a ribbon in response to the detection of the position of the bottom base cake. In response to detection of the base cake, a signal or timing mechanism may activate a guillotine knife or blade to open the die aperture to allow filler to be deposited on the bottom base cake and to close the die aperture to sever or cut the ribbon to a predetermined dimension. The severing prevents further flow of the filler through the die aperture until the next bottom base cake is detected and the die aperture is again opened to allow filler to be deposited on the next bottom base cake. | 05-20-2010 |
20100297302 | PROCESS AND APPARATUS FOR FORMING A WAVE CHIP PRODUCT - Thin snack chips having a curved or wave shape are obtained by forming, shaping or curling baked chips into a curved or wave configuration before they become too cold and rigid so as to result in breakage during forming. The essentially flat, malleable baked chips, still hot from baking in an oven may be continuously transported on a conveyer belt into a nip or gap formed between the conveyer belt and a rotating forming roller to curve or curl the malleable baked chips around the roller. The malleable baked chips are subjected to a guided curtain of air to cool and set the chips in a curved or wave configuration and to remove or blow the curved or wave chips off of the rotating forming roller onto the conveyor belt. | 11-25-2010 |
20110008494 | PRODUCTION OF BAKED SNACK CHIPS WITH IRREGULAR SHAPE HAVING NOTCHED EDGES - Thin, baked fermented chips having an irregular shape and surface bubbles are produced by cutting a fermented, wheat-based compressed dough sheet into a plurality of pieces having different shapes and notches with a single rotary cutter so that the dough pieces form an interlocking pattern and the notches extend around the periphery of each piece. The notches are spaced around the periphery of each piece and facilitate separation of the dough pieces from each other while at least substantially avoiding tearing and breaking of the dough pieces. A plurality of notches of each piece are aligned or contiguous with notches of any adjacent piece in the interlocking pattern. | 01-13-2011 |
20110212237 | Production of Whole Grain Shredded Products - Shredded whole grain products, such as ready-to-eat cereals, and sweet and savory snacks, such as whole grain shredded corn chips are continuously produced by pelletizing agglomerates of cooked, tempered, whole cereal grain particles. Cooked whole grains, such as corn and other non-gluten or low-gluten containing grains have a tendency to become hard and rubbery after cooking during the cooling and tempering process. The pelletization results in the production of whole grain pellets having a soft, pliable texture, which are shreddable into continuous net-like sheets on a mass production basis. The pelletizing may be at a pressure of about 200 psig to about 600 psig, preferably from about 400 psig to about 500 psig. The pelletizing temperature may be controlled to provide a pellet temperature of about 80° F. to about 120° F., preferably from about 90° F. to about 110° F., upon exiting the pelletizer. | 09-01-2011 |
20110223304 | Production Of Whole Grain Shredded Products - Shredded whole grain products, such as ready-to-eat cereals, and sweet and savory snacks, such as whole grain shredded corn chips are continuously produced by pelletizing agglomerates of cooked, tempered, whole cereal grain particles. Cooked whole grains, such as corn and other non-gluten or low-gluten containing grains have a tendency to become hard and rubbery after cooking during the cooling and tempering process. The pelletization results in the production of whole grain pellets having a soft, pliable texture, which are shreddable into continuous net-like sheets on a mass production basis. The pelletizing may be at a pressure of about 200 psig to about 600 psig, preferably from about 400 psig to about 500 psig. The pelletizing temperature may be controlled to provide a pellet temperature of about 80° F. to about 135° F., preferably from about 90° F. to about 110° F., upon exiting the pelletizer. | 09-15-2011 |
20110262611 | DOUGH EXTRUDERS AND METHODS - A dough extruder is disclosed that is configured to provide a continuous dough rope suitable for cracker products using a straight extended low friction compression chamber and a die plate oriented substantially perpendicular to a laminar flow of the dough. In one embodiment, the extruder can have a compressive force sufficient to extrude a plastic mass in a laminar flow in the range of about less than 120 psi; a compression chamber providing for an interior coefficient of friction in the range of about 0.2 and 0.35; and a die plate horizontally aligned with the longitudinal axis of the compressive force. | 10-27-2011 |
20130216639 | PRODUCTION OF COOKIES HAVING LARGE PARTICULATES USING ULTRASONIC WIRECUTTING - A method for the continuous production of cookies having a high content of large inclusions, such as chocolate chips, nuts, and fruit pieces includes extruding a cookie dough containing the inclusions through a die orifice to obtain an extrudate dough rope, and cutting the extrudate dough rope with an ultrasonic cutting blade. The ultrasonic cutting severs the extrudate dough rope into dough pieces which fall onto a moving conveyer into a substantially uniform or regular array for uniform baking. The ultrasonic cutter is controlled to provide a roughened top surface on a dough piece to provide a home baked appearance upon baking, while cutting through the inclusions without substantial displacement of the inclusions which would cause pock marks on the surface of the dough piece, and without substantial dough piece weight variation. | 08-22-2013 |