Provided are a quantitative division unit, a quantitative division method, and a food production method capable of accurately quantitatively dividing a paste ingredient while preventing the damage of the ingredient. A first plunger and a second plunger are shifted from a first driving state to a second driving state in such a manner that the paste ingredient is introduced between the first plunger and the second plunger via a first port due to a negative pressure generated in the area of an internal space between the first plunger and the second plunger. The first plunger and the second plunger are shifted from the second driving state to a third driving state where at least a part of the paste ingredient between the first plunger and the second plunger is disposed so as to face the second port. The first plunger and the second plunger are then shifted from the third driving state to a fourth driving state so as to feed the paste ingredient to the outside via the second port.

A culinary injection delivery device including a cylindrical housing having an interior volume. The cylindrical housing is opened at both ends. The first opened end has a delivery nozzle attached thereto. The second opened end has a plunger located therein. The plunger is made up of a stick and at least two disks. A first disk located on an end of the stick and a second disk located slightly aft of the first disk. A spring located be the first and second disk is configured to push the first disk forward. The first disk has an extension placed thereon that matches the interior of the delivery nozzle. The spring will push the first disk forward releasing a food product.

A bun press is disclosed. The invention relates generally to a device for shaping the interior of an already baked, sliced bun and thereby creating a sloppiless bun. The device comprises a die or set of dies that is pressed into the top and bottom halves of a single or a plurality of baked, sliced bun(s) to provide an interior cavity that can contain messy, liquid-like or liquid fillings, e.g. sloppy joe fillings, melted cheese, meatballs and tomato sauce and the like.

A funneling apparatus is provided that can be used in filling a food item, such as a taco shell. The funneling apparatus includes two opposing elongated walls connected on their ends by two opposing end walls. An opening is formed inside the funneling apparatus between the elongated walls and the end walls, which includes a top portion configured to receive contents and a bottom portion configured to dispense the contents. A concave section is provided along the base of each of the first elongated wall the second elongated wall. During use of the funneling apparatus with an item such as a taco shell, the concave section exposes the interior of the side walls formed by the taco shell. The end walls of the funneling apparatus prevent the contents inserted into the opening from spilling out of the taco shell.

Apparatus for injecting ice cream through a sleeve and nozzle into pastries receives ice cream from soft-serve ice-cream machines. The sleeve is temperature controlled by electric heating element, temperature sensor, and controller. The nozzle has a pointed tip and deposits an ice cream stream, optionally including a flavored syrup injected into its center as it flows through the nozzle, into a ball in a pastry. Another nozzle formed with openings on opposite sides of the tip deposits ice cream with ripple effect. A method of injecting ice cream into pastries includes positioning a pastry with injector nozzle tip in the pastry; flowing ice cream through a temperature controlled injection device and nozzle into the pastry; and removing the pastry. In embodiments, the method includes injecting flavored syrup into a center of a stream of ice cream and deposits the ice cream in a ball or rippled stream within a pastry.

A system includes a hopper, a permeable seal, a gas supply, and a receiver. The hopper includes an elongated housing holding a row of food products. The elongated housing defines a pressurized end opposite a discharge end through which the food products are dispensed. The permeable seal is interposed between an interior wall of the hopper and a surface of the piston. The permeable seal cooperates with the hopper and the piston to define a closed volume between the piston and the pressurized end. The permeable seal is configured to bleed gas from the closed volume toward the discharge end. The gas supply selectively supplies gas into the closed volume to displace the piston toward the discharge end. The receiver receives food products dispensed from the elongated housing and is positioned to allow the food products to move along at least partially by gravity.

A folding platform includes a base, first folding flap, lift arm, and lift arm linkage. The first folding flap is rotatably connected with the base and facilitates the folding of a food item placed on the folding platform. The lift arm linkage is rotatably connected with the base and the lift arm to operatively lift the lift arm and allow the lift arm to rotate in a first rotational direction, and includes a spring that engages the lift arm linkage and the lift arm, and biases the lift arm in a second rotational direction opposite the first rotational direction. The lift arm is capable of rotating a first rotational distance, and rotating a second rotational distance greater than the first rotational distance without bending or breaking when the lift arm contacts an obstruction. The lift arm automatically returns to its normal position due to the bias force of the spring.

An apparatus for making a wrapped food product includes a conveyor under continuous motion. A wrapper is positioned over the moving conveyor. The apparatus includes a filling mechanism that conveys a filling from a hopper to a mold and a piston that pushes the filling from the mold to the wrapper. The apparatus also includes a folding mechanism that folds a side of the wrapper over a portion of the filling, and a second plate that folds the other side of the wrapper over another portion of the filling. A stamper is positioned over the conveyor, pressing the folded wrapper onto the filling. A flipping mechanism of the apparatus includes a set of guide plates and a prong that rotates the filling and a portion of the wrapper around the filling on itself.

A foodstuffs preparation device suitable for preparing breadstuff-based goods, the device comprises a hollow cylindrical tube having an open first end, a second end and a side wall, the side wall defining a tube channel, the first end including a cutting arrangement, the side wall defining an elongate aperture with an anterior end proximal to the first end and a posterior end distal from the first end, wherein the aperture is suitable for the insertion of a foodstuff into the tube channel.

A folding platform includes a base, first folding flap, lift arm, and lift arm linkage. The first folding flap is rotatably connected with the base and facilitates the folding of a food item placed on the folding platform. The lift arm linkage is rotatably connected with the base and the lift arm to operatively lift the lift arm and allow the lift arm to rotate in a first rotational direction, and includes a spring that engages the lift arm linkage and the lift arm, and biases the lift arm in a second rotational direction opposite the first rotational direction. The lift arm is capable of rotating a first rotational distance, and rotating a second rotational distance greater than the first rotational distance without bending or breaking when the lift arm contacts an obstruction. The lift arm automatically returns to its normal position due to the bias force of the spring.