A method to make a single dough ball using adaptive kneading technology is explained. An adaptive kneading technology which resides in a processor is used to form an optimal viscoelastic dough ball. The flour and liquid are mixed, the initial dough is contacted, the reading for resistance is recorded, if need be corrected and finally a dough ball is dispensed to make a flat bread.

A dough kneading device has a kneading drum for predefining the bottoms and side walls of kneading chambers, which serve to receive dough pieces to be kneaded. A kneading belt over a circumferential portion abuts the kneading drum for closing the kneading chambers. The kneading belt has a plurality of passage openings with a typical diameter which is smaller than 12 mm. This results in a dough kneading device with which even moist doughs can be kneaded without the use of anti-adhesive agents, if possible, without the dough adhering to the kneading belt and/or the kneading chambers in an unwanted manner.

Disclosed is a method for distributing a food fluid in a bakery, including the circulation of food fluid from a cold room to at least one metering point, in supply piping arranged between the cold room and the metering point, the cold room being remote from the metering point. The supply piping includes two piping segments and a set of one or more valves, arranged in such a way that: for a first configuration of the set of one or more valves, the two piping segments supply food fluid, in parallel and simultaneously, to the metering point from at least one tank of food fluid located in the cold room, and for at least one other configuration of the set of one or more valves, the two piping segments form a fluid circulation loop.

A batter mixing system has a mix tank. The mix tank includes a dry mix feed, a liquid feed, a mixer, and a mix tank load cell. A distribution tank is in communication with the mix tank via a transfer pump. The distribution tank includes a distribution tank load cell. The distribution tank is in further communication with a process line via a feed pump. A control system is in communication with each of the mix tank load cell and the distribution tank load cell. The control system is configured to operate each of the mix tank and the distribution tank.

An automated production system is disclosed herein. One aspect of the present technology, for example, is directed toward an automated system for the continuous production of baked bread. The system can include a priming assembly having a dry ingredients priming unit and a wet ingredients priming unit. The dry ingredients priming unit can include a vertically-oriented hopper and a screw positioned within an interior region of the hopper, wherein the first screw extends along the central longitudinal axis of the hopper and is configured to rotate about its own central longitudinal axis. The system can also include a mixing assembly, a forming assembly, an oven, and a controller. The controller can be coupled to the priming assembly and configured to adjust the amount of dry ingredients delivered from the hopper to the mixing chamber by controlling rotation of the screw.

An automated production system is disclosed herein. One aspect of the present technology, for example, is directed toward an automated system for the continuous production of baked bread. The system can include a priming assembly having a dry ingredients priming unit and a wet ingredients priming unit. The dry ingredients priming unit can include a vertically-oriented hopper and a screw positioned within an interior region of the hopper, wherein the first screw extends along the central longitudinal axis of the hopper and is configured to rotate about its own central longitudinal axis. The system can also include a mixing assembly, a forming assembly, an oven, and a controller. The controller can be coupled to the priming assembly and configured to adjust the amount of dry ingredients delivered from the hopper to the mixing chamber by controlling rotation of the screw.

Apparatuses and methods for preparation of breads are described. The apparatuses include a press unit that can receive a dough ball and flatten the dough ball. The press unit includes a top plate and a bottom plate, each of which is in an inclined arrangement. The top plate swivels towards and away from the bottom plate. A dough ball is flattened between the top plate and the bottom plate. The bottom plate is heated, thereby heating a first face of the flattened dough in contact with the bottom plate. A flipper connected to at least one of the top plate and the bottom plate guides the flattened dough to a heated cooking surface. The guiding enables a second face of the flattened dough to come in contact with the cooking surface, thereby heating the flattened dough and forming the bread.

Disclosed is a method for distributing a food fluid in a bakery, including the circulation of food fluid from a cold room to at least one metering point, in supply piping arranged between the cold room and the metering point, the cold room being remote from the metering point. The supply piping includes two piping segments and a set of one or more valves, arranged in such a way that: for a first configuration of the set of one or more valves, the two piping segments supply food fluid, in parallel and simultaneously, to the metering point from at least one tank of food fluid located in the cold room, and for at least one other configuration of the set of one or more valves, the two piping segments form a fluid circulation loop.

The invention relates to a device for dispensing liquid yeast in a bakery, including: an inner panel (2) of a refrigerated chamber (6) onto which an inner circuit (20) for the flow of liquid yeast is pre-mounted, wherein said inner circuit is intended to be connected to a liquid yeast vessel (4) and includes a pumping unit (21); an outer panel (1) of a refrigerated chamber (6) onto which a liquid yeast metering device (16) and a metering table (10) are pre-mounted, wherein said metering table is intended to receive a vessel (3) to be filled with an amount of liquid yeast metered by said liquid yeast metering device (16). Said inner panel (2) and said outer panel (1) are structured such as to be attached sandwiched onto the wall (5) of a refrigerated chamber (6) for containing said vessel (4). Said liquid yeast metering device (16) is intended to be connected, through a wall (5) of the refrigerated chamber (6), to said inner circuit (20).

The present disclosure provides an apparatus for dispensing powdered material, including container for storing powdered material. The container includes inlet for receiving powdered material and outlet for dispensing powdered material. A screw conveyor member disposed within container, which includes a first end rotatably mounted on wall of container and a second end abuttingly positioned to outlet and is operable by actuator for conveying powdered material through outlet. A scattering member, which includes at least one obstruction, is coupled to outlet, for scattering powdered material from outlet during dispensing operation. A load sensor adapted to support container for measuring weight of container. A control module adapted to control operating speed of actuator to operate screw conveyor member in a plurality of rotating modes based on weight readings received from load sensor. The apparatus prevents formation of chunks while dispensing powdered substance and thereby ensure precise dispensing of powdered material.