Various examples are related to making flatbreads such as, e.g., a compact machine for making flatbread in a residential kitchen-type environment or other countertop, tabletop, or space limited applications. In one example, a machine includes a hopper including a mixing chamber configured for bulk addition of raw materials for preparation of flatbread pieces; a mixing assembly configured to blend the raw materials into a flatbread dough mixture; a dough piecing assembly configured to generate a dough piece from an extruded portion of the flatbread dough mixture; a lower platen configured to transfer the pressed flatbread dough piece to a cooking zone on the dough contacting surface for cooking; and a flatbread ejection station configured to remove a cooked flatbread piece from the machine. A second cooking zone can be included to further cook the pressed flatbread dough piece prior to ejection from the machine.

A method of manufacturing a homogeneous cheesecake mix is disclosed. More specifically, the method creates a harmonious and homogeneous cheesecake with the flavoring and coloring being distributed along the cheesecake mix. The present invention requires a cheesecake mix, a flavoring blend, a mixing bowl, a plurality of sensors, and a mechanical sensor. The initial amount of flavoring blend and the cheesecake mix are added into the mixing bowl to make an initial mixture. The initial mixture is mixed into a batter using a mechanical mixer. An incremental amount of flavoring blend is added and mixed into the batter to make a cheesecake mix. The cheesecake mix is then probed for color and concentration. Repeat the last two steps until desired color and flavor is achieved. Finally, the mechanical mixer is stopped to form the homogeneous cheesecake mix once the desired color and flavor is achieved.

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 system to make a bread loaf includes means for moving continuously pans along a predetermined path, each pan including at least one cavity sized and configured for making a bread loaf. Means conditioning continuously a batch of unconditioned dough reduces the size of air pockets therein to form a conditioned dough. Means continuously extrude the batch of conditioned dough at a controlled volumetric feed rate and at a controlled pressure to provide a constant stream of conditioned dough that is continuously cut into individual packets. The entire batch is converted into individual packets of conditioned dough corresponding to a predetermined number of bread loaves to be produced from the batch, with all the packets deposited individually in cavities of the pans.

A grain and flour supply apparatus is provided, including a holding bin provided above a container and having an exhaust port from which gas is discharged, an introduction port into which grain and flour are introduced, and a supply port which supplies the grain and flour to the container; a first vacuum breaker valve opening and closing the exhaust port; a second vacuum breaker valve opening and closing the introduction port; a third vacuum breaker valve opening and closing the supply port; a temperature sensor measuring the temperature in the holding bin; a vacuum device drawing a vacuum in the holding bin; and a control device configured to control the first vacuum breaker valve, the second vacuum breaker valve, the third vacuum breaker valve, and the vacuum device, and set with a target temperature.

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 method for determining a kneading state of a dough such as a cereal dough, wherein the dough being-is configured to be kneaded in a kneading machine, the kneading machine comprising a plurality of having sensors configured to measure representative quantities of the dough during a kneading cycle and at least one kneading tool. The method includes the following steps: continuously collecting the measurements of the representative quantities of the dough during the kneading cycle, determining a kneading state based on a kneading state model defined as a function of the measurements of the representative quantities, the kneading state model being defined or adapted based on a learning phase, and checking up the fulfillment of a kneading stop criterion based on the kneading state.

A baking attachment for a kitchen appliance has an outer container with inner walls enclosing a receiving compartment and an insertion opening on an upper side. A preparation container is arranged in the receiving compartment. A heating device is provided in an intermediate space between a base and side walls of the preparation container and inner walls of outer container. A mixing and kneading mechanism and a cover for the insertion opening are provided. The outer container detachably inserts into a receiving section of the kitchen appliance base. A free end of a rotary shaft of the mixing and kneading mechanism arranged in a connection section has a first coupling section for rotationally fixed connection to a second coupling section on a drive shaft of the kitchen appliance base. Electrical contact elements of the heating device in the connection section detachable connect to electrical contacts of a kitchen appliance base.

Various examples are related to making flatbreads such as, e.g., a compact machine for making flatbread in a residential kitchen-type environment or other countertop, tabletop, or space limited applications. In one example, a machine includes a hopper including a mixing chamber configured for bulk addition of raw materials for preparation of flatbread pieces; a mixing assembly configured to blend the raw materials into a flatbread dough mixture; a dough piecing assembly configured to generate a dough piece from an extruded portion of the flatbread dough mixture; a lower platen configured to transfer the pressed flatbread dough piece to a cooking zone on the dough contacting surface for cooking; and a flatbread ejection station configured to remove a cooked flatbread piece from the machine. A second cooking zone can be included to further cook the pressed flatbread dough piece prior to ejection from the machine.

An elastomer rheology process can include: receiving material formation data associated with an elastomer; conveying the elastomer towards one or more rollers that compress and stretch the elastomer according to a predetermined rolling profile comprising roller gap and speed settings; sensing a first dimension of a first portion of the elastomer before the first portion of the elastomer is passed through the sheeter; sensing a second dimension of a second portion of the elastomer after the second portion of the elastomer is passed through the sheeter; and calculating an elastomer property of the elastomer based on the controlled roller gap width, a measured roller force, the first dimension, and the second dimension.