The present invention relates to an ice cream manufacturing apparatus, an ice cream manufacturing method, and an ice cream drawing method. An apparatus for manufacturing ice cream according to an embodiment of the present invention includes: a dasher positioned in a cylinder and agitating a liquefied original ice cream liquid and air input into the sealed cylinder; a dasher motor rotating the dasher; a motor RPM control means controlling a frequency of the dasher motor; a dasher motor load measuring means measuring a load of the dasher motor; and a controller determining a rotational speed change time of the dasher motor based on the load measured by the dasher motor load measuring means and controlling the motor RPM control means so as to change the frequency of the dasher motor to a predetermined frequency when the change of the rotational speed of the dasher motor is determined.

A method of entraining gas in a flowable food product comprising the steps of accelerating the flowable food product in a flow direction through a flow channel that includes a ramp. Gas is injected into the flowable food product transverse to the flow direction through a porous surface or plate while the food product traverses the ramp to generate a froth. An apparatus for entraining gas in a food product, comprises a source of flowable food product and a food product pump to accelerate the food product through a flow channel. A ramp is disposed in the flow channel as well as a porous surface forming a wall of the flow channel opposite the ramp. A source of gas is in communication with the porous surface, wherein gas is entrained in the food product as it passes by the ramp and the porous surface.

A method of entraining gas in a flowable food product comprising the steps of accelerating the flowable food product in a flow direction through a flow channel that includes a ramp. Gas is injected into the flowable food product transverse to the flow direction through a porous surface or plate while the food product traverses the ramp to generate a froth. An apparatus for entraining gas in a food product, comprises a source of flowable food product and a food product pump to accelerate the food product through a flow channel. A ramp is disposed in the flow channel as well as a porous surface forming a wall of the flow channel opposite the ramp. A source of gas is in communication with the porous surface, wherein gas is entrained in the food product as it passes by the ramp and the porous surface.

A vehicle galley insert cold treat making system for making slushy product and ice cream product. The system including a slushy unit configured to make a slushy product and an ice cream unit configured to make ice cream product. Also provided is a cooling system configured to cool the slushy unit and the ice cream unit; and a dispensing unit. The slushy unit and the ice cream unit are connected to the dispensing unit for selectively dispensing slushy product and ice cream product. The machine can produce at least two different types of cold treat while only being a single galley insert and thus only requiring a single compartment in the galley, the system can improve overall passenger and staff experience and safety without compromising other services.

The present invention relates to a portion control system for food products dispensed from frozen beverage equipment and soft-serve ice cream equipment. The system, injects a food product into a mixing cylinder and chills the food product to a predetermined frozen malleable consistency. When a portion-controlled dispense amount volume indicating volume of the food product to dispense is received a dispense time is determined based on a dispense amount volume and current values of dispense condition variables. If the auger motor is initially off a surge dispense amount volume is first determined and dispensed, the auger motor started, and the remainder dispense time and dispense amount volume are determined and dispensed. If the auger motor is initially on a dispense time is determined. Dispense time is determined by interpolating between dispense table records that comprise dispense times, dispense amount volumes, and dispense condition variables.

A method for producing an edible composite of gas hydrate and ice is provided, the method comprising the steps of contacting an aqueous solution with carbon dioxide or nitrous oxide at a sufficiently high pressure to form a gas hydrate, but at a temperature preventing this; and then reducing the temperature of the solution to form the gas hydrate and ice; characterized in that the aqueous solution contains from 0.0001 to 2 wt % of an ice structuring protein. Frozen confections containing gas hydrates and methods for producing them are also provided.

A method for producing an edible composite of gas hydrate and ice is provided, the method comprising the steps of contacting an aqueous solution with carbon dioxide or nitrous oxide at a sufficiently high pressure to form a gas hydrate, but at a temperature preventing this; and then reducing the temperature of the solution to form the gas hydrate and ice; characterized in that the aqueous solution contains from 0.0001 to 2 wt % of an ice structuring protein. Frozen confections containing gas hydrates and methods for producing them are also provided.

A machine for making liquid or semi-liquid food products includes a plurality of supply containers containing a basic mixture and deformable wall, so the space occupied by each first container depends on a quantity of basic mixture therein. A processing container includes a stirrer and thermal treatment system, operating with one another to convert the basic mixture into a liquid or semi-liquid product. A connecting system connects the supply containers to the processing container to transfer the basic mixture from one of the supply containers to the processing container and includes a plurality of pneumatically operated closing valves, where each of the valves is associated with one of the supply containers and can be activated and deactivated independently of the remaining valves to allow the placement of one of the containers in connection with the processing container.

A machine for making liquid or semi-liquid food products includes a plurality of supply containers containing a basic mixture and deformable wall, so the space occupied by each first container depends on a quantity of basic mixture therein. A processing container includes a stirrer and thermal treatment system, operating with one another to convert the basic mixture into a liquid or semi-liquid product. A connecting system connects the supply containers to the processing container to transfer the basic mixture from one of the supply containers to the processing container and includes a plurality of pneumatically operated closing valves, where each of the valves is associated with one of the supply containers and can be activated and deactivated independently of the remaining valves to allow the placement of one of the containers in connection with the processing container.

An ingredient blending system for food and beverage applications incorporates a manifold body with a blending chamber, ingredient inlet ports, egress ports, and ingress ports to facilitate ratiometric mixing of multiple ingredients. The system employs a pump connected to an egress port to create suction, eliminating the need for positive pressure pumps at the inlet. Valve caps maintain selected ports in a permanently open state, enabling fluid communication for continuous flow, while electronic valves provide selective control. The system supports dynamic ingredient flow control, with configurations allowing pressure sensors to monitor ingredient flow or be replaced by sensor caps for simplicity. The blending chamber achieves precise mixing ratios based on port dimensions and supports diverse ingredient types, such as liquids and gases. Designed for scalability, the system enables efficient cleaning and maintenance, making it suitable for high-demand environments like frozen beverage or soft-serve ice cream equipment.