Systems and methods for preparing and dispensing food contents, typically molten chocolate. In one aspect, a method for treating chocolate includes placing a quantity of chocolate in a pressure-controllable environment; heating the quantity of chocolate to a temperature of about 115 degrees Fahrenheit; decreasing the pressure of the pressure-controllable environment to about 5 Torr; and holding the pressure of the pressure-controllable environment at about 5 Torr for a predetermined period of time. Additional steps may include decreasing the pressure of the pressure-controllable environment to about 5 Torr at an average rate of about 8 Torr per minute; heating the quantity of chocolate to a temperature of about 115 degrees Fahrenheit may occur at a rate of about 2 degrees Fahrenheit per minute; and/or heating the quantity of chocolate to a temperature of about 115 degrees Fahrenheit may occur at a rate of no more than 1 degree Fahrenheit per minute.

Systems and methods for preparing and dispensing food contents, typically molten chocolate. In one aspect, a method for treating chocolate includes placing a quantity of chocolate in a pressure-controllable environment; heating the quantity of chocolate to a temperature of about 115 degrees Fahrenheit; decreasing the pressure of the pressure-controllable environment to about 5 Torr; and holding the pressure of the pressure-controllable environment at about 5 Torr for a predetermined period of time. Additional steps may include decreasing the pressure of the pressure-controllable environment to about 5 Torr at an average rate of about 8 Torr per minute; heating the quantity of chocolate to a temperature of about 115 degrees Fahrenheit may occur at a rate of about 2 degrees Fahrenheit per minute; and/or heating the quantity of chocolate to a temperature of about 115 degrees Fahrenheit may occur at a rate of no more than 1 degree Fahrenheit per minute.

A machine for making and dispensing chocolate, comprising: at least one chocolate processing container; a chocolate dispenser tap connected to the processing container for allowing chocolate dispensing; at least a first mixer associated with the container for mixing the chocolate being processed; thermal treatment means associated with said at least one processing container and designed to heat and/or cool the walls of said processing container; an operating and control unit, designed to control said thermal treatment means so as to bring, in sequence in terms of time, the chocolate being processed in said at least one container; to a first, chocolate melting temperature; to a second temperature, which is lower than the first temperature; to a third temperature, which is between the second temperature and the first temperature.

A control method for a viscous semi-liquid frozen or hot food dispenser comprising a stirring means configured to stir the food, a motor (50) configured to drive the stirring means to rotate, a refrigerating means or heating means configured to input cold energy or heat energy into the food, a rotation speed sensor (80) configured to detect a stirring speed, and a temperature sensor (13) configured to detect the food temperature, the control method comprising the steps of: a) refrigerating or heating the food by the refrigerating means or heating means; b) comparing the food temperature detected by the temperature sensor (13) with a target preset value of the food temperature, and determining to continue the refrigeration or heating, or to stop the refrigeration or heating and to keep stopping for a preset time; c) intervening by corresponding adjustment of the target preset value when a data set collected from the rotation speed sensor (80) shows that change trend of the rotation speed meets predefined intervention conditions; and d) returning to step a) for the next cycle. The control method for a viscous semi-liquid food dispenser is capable of controlling viscosity of food accurately and reliably to maintain consistence of the characteristics of the dispensed product and minimize the influence from the environment as much as possible.

A control method for a viscous semi-liquid frozen or hot food dispenser comprising a stirring means configured to stir the food, a motor (50) configured to drive the stirring means to rotate, a refrigerating means or heating means configured to input cold energy or heat energy into the food, a rotation speed sensor (80) configured to detect a stirring speed, and a temperature sensor (13) configured to detect the food temperature, the control method comprising the steps of: a) refrigerating or heating the food by the refrigerating means or heating means; b) comparing the food temperature detected by the temperature sensor (13) with a target preset value of the food temperature, and determining to continue the refrigeration or heating, or to stop the refrigeration or heating and to keep stopping for a preset time; c) intervening by corresponding adjustment of the target preset value when a data set collected from the rotation speed sensor (80) shows that change trend of the rotation speed meets predefined intervention conditions; and d) returning to step a) for the next cycle. The control method for a viscous semi-liquid food dispenser is capable of controlling viscosity of food accurately and reliably to maintain consistence of the characteristics of the dispensed product and minimize the influence from the environment as much as possible.

Systems for dispensing chocolate, in one aspect including an exterior housing with first volume; a vertical support member; a base support member; a dispenser guiding member within the first volume; an extruder connection member extending through the housing and having a first end within the housing and a second end outside of the housing, defining a pivot axis; an extruder member connected to the first end; a lever connected to the second end; at least one extruder guide member within the first volume and connected to the extruder member; and at least one extruder guide rail connected to the housing within the first volume and capable of receiving the at least one extruder guide member; and where manual actuation of the lever pivots the extruder member in cooperation with the at least one extruder guide member.

Systems for dispensing chocolate, in one aspect including a generally fluid-tight exterior housing with first volume; a vertical support member; a base support member; a dispenser guiding member within the first volume; an extruder connection member extending through the housing and having a first end within the housing and a second end outside of the housing, defining a pivot axis; an extruder member connected to the first end; a lever connected to the second end; at least one extruder guide member within the first volume and connected to the extruder member; and at least one extruder guide rail connected to the housing within the first volume and capable of receiving the at least one extruder guide member; and where manual actuation of the lever pivots the extruder member in cooperation with the at least one extruder guide member.

Apparatus and systems for melting and liquefying chocolate. In one aspect, a system includes a generally fluid-tight exterior housing defining a first volume; a bulkhead positioned within the housing and dividing the first volume into separate second and third volumes; at least one vertical support member operationally connected to the exterior housing; a base support member operationally connected to the vertical support member; a dispenser guiding member disposed within the first volume and operationally connected to the exterior housing; and a heating element in thermal communication with the first volume, wherein energization heats the first volume to 37 to 46 degrees Celsius. Other aspects include where the liquid chocolate contains less than 3% water; where the liquid chocolate is solid at room temperature; a multiple pivot hinge; and a noninterfering interdigitating hinge.

The invention provides a food coating apparatus and a food production method in which an impact applied when a food material is put can be reduced, misalignment or deformation of a food material can be suppressed, and even a soft food material, an easily-crumbled food material, or the like can be efficiently coated. A food coating apparatus comprises: a flow channel through which a liquid coating material flows; a conveyor to be immersed in the liquid coating material and to make the liquid coating material to flow in a travel direction, the conveyor being arranged on an upper side of a bottom surface of the flow channel; a drive device configured to drive the conveyor; and a putting device configured to put a food product, wherein the conveyor is immersed in the liquid coating material at a putting position where the putting device puts the food product, and the food product is conveyed and coated with the liquid coating material in the flow channel in a state where the food product is supported by the conveyor or is supported by the liquid coating material that is flowing.

In an plant for producing foodstuff, in particular a chocolate article, in at least one mould (1) which can be tempered in at least one processing station (3, 8, 9) before and/or after the foodstuff is filled in, wherein the mould (1) being taken over in or at the processing station (3, 8, 9) by a robot (4) and being deposited for tempering, individual, separate trays (5) for the moulds (1) are provided in the processing station (3, 8, 9).