Content containers and vessels, one aspect including a deformable fluid-tight container shell defining an internal volume and separating the internal volume from an external environment; a room-temperature semi-solid content contained within the internal volume; and a valve operationally connected to and disposed at least partially without the deformable container shell; where the semi-solid content is a hydrophobic matrix with at least partially emulsified hydrophilic components; where the container shell is substantially fluid-tight; where the valve has open state(s) and a closed state; where the valve may be actuated between the open state(s) and the closed state; where the valve is self-cleaning; where during the open state(s), the internal volume is in fluidic communication with the external environment; where during the closed state, the internal volume content cannot fluidically communicate with the external environment; and where the content remains moisture-stable while the valve is in the closed state.

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.

Methods for treating and preparing chocolate. In one aspect, a method includes heating a quantity of chocolate to a temperature of about 46 degrees Celsius; decreasing the pressure of in a pressure-controllable environment to about 25 Torr; holding the pressure of the pressure-controllable environment at about 25 Torr for a first predetermined period of time; 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 second predetermined period of time. Other aspects include ceasing heating the quantity of chocolate; decreasing pressure occurs at an average rate of about 150 Torr per minute; decreasing pressure occurs at an average rate of about 4 Torr per minute; and others.

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.

This invention provided an edible product having a plurality of adjacent extruded product portions comprising one or more of chocolate, baked or unbaked cereal-based composition, or cheese. The portions are connected to one another along their length by a frangible connecting portion. The invention also provides a method of manufacturing such a product. The method includes providing an extrusion die having a linear array of at least two interconnected openings therein; and extruding product portions through the die to produce the product. The product comprises at least one or more edible materials comprising: chocolate products, baked or unbaked cereal-based composition, or cheeses.

A method for printing a three-dimensional crystalline structure such as a chocolate layer wherein, after printing, the material has a desired crystal structure and a plurality of non-random cavities. An embodiment can include printing a liquid first layer of material with a printer onto a second layer of material having a crystal structure. Subsequently, the printed liquid first layer is processed to solidify the first layer. During the processing of the printed liquid first layer, the second layer functions as a crystal seed layer through physical contact with the printed liquid first layer and the second layer crystallizes with the crystal structure. In some embodiments, confections may be formed from high-quality chocolate, where the confection has a reduced caloric content with acceptable mouthfeel. In other embodiments, a confection may have a previously unrealized mouthfeel and taste.

An another object of the present invention is to provide a method capable of easily producing a ground processed food material. The ground processed food material of cacao and/or cacao processed product of the present invention is characterized in that the material is an extruder-processed ground product of cacao and/or cacao processed product, wherein the content of general bacteria contained in the extruder-processed ground product is 3,000/g or less. Further, in a preferred embodiment of the ground processed food material of cacao and/or cacao processed product of the present invention, the average particle size of the non-oil and fat components of the extruder processed ground product is in the range of 100 to 300 m.

A method for printing a three-dimensional crystalline structure such as a chocolate layer wherein, after printing, the material has a desired crystal structure. An embodiment can include printing a liquid first layer of material with a printer onto a second layer of material having a crystal structure. Subsequently, the printed liquid first layer is processed to solidify the first layer. During the processing of the printed liquid first layer, the second layer functions as a crystal seed layer through physical contact with the printed liquid first layer and the second layer crystallizes with the crystal structure.

A method for printing a three-dimensional crystalline structure such as a chocolate layer wherein, after printing, the material has a desired crystal structure. An embodiment can include printing a liquid first layer of material with a printer onto a second layer of mate al having a crystal structure. Subsequently, the printed liquid first layer is processed to solidify. The first layer. During the processing of the printed liquid first layer, the second layer functions as a crystal seed layer through physical contact with the printed liquid first layer and the second layer crystallizes with the crystal structure.

A three dimensional printer extruder, comprising: a heating member comprising two or more heating member tunnels, each tunnel adapted for receiving a filament; and a nozzle comprising: a single extrusion aperture for extruding material; and two or more nozzle tunnels each connecting to one of the two or more heating member tunnels, and each having an output end at most 1.5 mm from the single extrusion aperture, wherein each filament is melted in a separate space comprising a heating member tunnel and a corresponding nozzle tunnel.