The present invention provides an apparatus for producing frozen confectionery products, the apparatus comprising a mixing chamber, the mixing chamber having: at least one frozen confection inlet connectable to a source of a frozen confection; at least one sauce inlet connectable to a source of sauce; and an outlet, wherein the at least one sauce inlet is positioned between the at least one frozen confection inlet and the outlet, characterised in that the mixing chamber is rotatable. The present invention provides a process for producing frozen confectionery products, the process comprising: providing the foregoing apparatus; supplying a frozen confection to the at least one frozen confection inlet; supplying a sauce to the at least one sauce inlet; and extruding the frozen confection and sauce from the outlet, characterised in that the mixing chamber is rotated thereby to distribute the sauce randomly throughout the frozen confection.

A machine for making and dispensing liquid, semi-liquid and/or semi-solid food products and which includes at least a cylinder for containing and processing basic products, means for heating and cooling the cylinder wrapped around at least part of the cylinder and a mixer unit positioned inside the cylinder which is able to mix the basic products during their processing; the machine also includes a supply duct for supplying the products into the cylinder, a dispensing duct for withdrawing the food products from the cylinder and means for recirculating the products contained in the containment and processing cylinder which are able to withdraw the products from the cylinder through the dispensing duct and to return them into the cylinder through the supply duct.

A machine for making and dispensing liquid, semi-liquid and/or semi-solid food products and which includes at least a cylinder for containing and processing basic products, means for heating and cooling the cylinder wrapped around at least part of the cylinder and a mixer unit positioned inside the cylinder which is able to mix the basic products during their processing; the machine also includes a supply duct for supplying the products into the cylinder, a dispensing duct for withdrawing the food products from the cylinder and means for recirculating the products contained in the containment and processing cylinder which are able to withdraw the products from the cylinder through the dispensing duct and to return them into the cylinder through the supply duct.

In one embodiment, the present disclosure includes a device for manufacturing a frozen edible product, including a cylindrical tank and a dasher disposed within the cylindrical tank and configured to rotate in a direction of rotation on an axis of rotation. A non-circular cylindrical core extends within the core along the axis of rotation. The dasher includes a generally cylindrical frame concentric with the tank and having a plurality of gaps, deflectors extending radially inward relative to the axis of rotation and circumferentially in the direction of rotation from the gaps, and blades extending radially outward from the dasher.

A machine for making liquid and/or semi-liquid food products includes a boiler for heating; a first chamber for processing a hot type liquid product, having an outlet and an inlet connected to the boiler; and a first dispensing unit, connectable to the outlet for dispensing a hot product. A mixing and cooling unit for making a cold type product includes a processing container and a stirrer, the mixing and cooling unit being connectable to the outlet for receiving the hot product defining a basic ingredient for making a product of the cold type. The outlet is switchable between a first configuration wherein the outlet is operatively connected to the mixing and cooling unit to allow transfer of hot product inside the processing container, and a second configuration wherein the outlet is operatively connected to the first dispensing unit to allow hot product to be dispensed.

A machine for making liquid and/or semi-liquid food products includes a boiler for heating; a first chamber for processing a hot type liquid product, having an outlet and an inlet connected to the boiler; and a first dispensing unit, connectable to the outlet for dispensing a hot product. A mixing and cooling unit for making a cold type product includes a processing container and a stirrer, the mixing and cooling unit being connectable to the outlet for receiving the hot product defining a basic ingredient for making a product of the cold type. The outlet is switchable between a first configuration wherein the outlet is operatively connected to the mixing and cooling unit to allow transfer of hot product inside the processing container, and a second configuration wherein the outlet is operatively connected to the first dispensing unit to allow hot product to be dispensed.

Systems, apparatuses, and methods for making a frozen beverage are disclosed. In the systems, a mixing stage mixes water and syrup to form a mixture. An ingredient flow path upstream the mixing stage feeds the water and syrup to the mixing stage. The ingredient flow path includes at least one ingredient sensor and an adjustable liquid flow control device. A mixture flow path receives the mixture downstream the mixing stage and includes a mixture sensor. An electronic control system is in connected communication with the ingredient sensor, mixture sensor, and adjustable flow control device, stores a target value associated with a brix, and is configured to achieve the target value by adjusting liquid flow through the liquid flow control device based on flow detected by the ingredient and mixture sensors. A freezing stage downstream the mixture flow path at least partially freezes the mixture.

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.

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.