Mobile fryer systems, cooking vessels, heated oil reservoirs, and methods of operating same to conduct cooking cycles are disclosed. An example mobile fryer system includes one or more cooking vessels configured to cook one or more food items via a cooking cycle, each of the one or more cooking vessels comprising a locking lid; a heated oil reservoir defining an enclosure, the enclosure comprising cooking oil; and one or more conduits fluidly connecting the heated oil reservoir to each of the one or more cooking vessels.

An automated cooking system for adding time and labor efficiencies in food production environments such as restaurants. The automated cooking system includes at least a fryer, a dispensing freezer, a hot holding station, a plurality of baskets, and a gantry system. The gantry system includes a gantry control for a gantry, configured to engage and move each of the baskets. The basket and gantry include interface elements for enabling precise movements and rapid opening and closing of baskets at the system. Aspects of an automated cooking system and a corresponding method for discharging cooked food product help to avoid the problems associated with manually operating a cooking system. Specifically, the system described herein provides for apparatuses and methods to cook and dispense food product in a more efficient manner with regard to both time and labor considerations within food production environments.

Described herein are automated cooking apparatuses for storing and cooking food items as well as methods of operating such apparatuses. In some examples, an automated cooking apparatus comprises a storage unit, a delivery unit, and a cooking unit. The storage unit may be equipped with a refrigeration unit and a container delivery opening. The delivery unit is aligned with this opening and configured to load a set amount of the food items into each food compartment of the cooking unit. The cooking unit moves its food compartments through a cooking tank (e.g., filled with a cooking liquid and heated using a set of heating elements) and into a cooked food receiver. The storage unit or, more specifically, its uncooked food container unit is positioned proximate (e.g., within 200 millimeters) to the cooking tank thereby reducing the time for transporting the food items relative to the cooking time.

A fryer and method for cooking food products is provided that automates the movement of baskets carrying the food products. The fryer) includes a cooking chamber with a heating element located therein for heating cooking medium in the cooking chamber. The fryer also includes at least one vertical transport assembly that selectively engages with and moves the basket vertically into and out of the cooking medium. A horizontal transport assembly selectively engages with and moves the basket horizontally between different positions. The horizontal transport assembly hands off the basket to and from the vertical transport assembly, and first and second hooks on the horizontal transport assembly engage with front and rear receiving mechanisms on the basket to continuously maintain at least two points of contact with the basket. This allows for controlled pivotal movements of the basket when food products are to be added or removed from the basket.

The present invention relates to an automatic frying machine comprising: a frying process part having divided spaces, wherein a plurality of module-type process units which carry out each of predetermined frying processes are detachably disposed in the divided spaces; and a transfer part which is in communication with the plurality of process units of the frying process part and which carries a basket having frying materials in and out of the plurality of process units and moves the basket, wherein the transfer part comprises: a basket which carries the frying material in and out through an opening formed on the plurality of process units; a transfer unit which raises and lowers the basket and slides it back and forth; and a horizontal moving part which moves the transfer unit horizontally.

Example robotic food preparation systems for integration with a cooking device may comprise one or more attachment panels having attachment location(s) for rigidly physically attaching to the cooking device. A rail may be attached to the one or more attachment panels, and may be positioned to extend laterally across a front-facing surface of the cooking device when the one or more attachment panels are physically attached to the cooking device. The system also includes a carriage positioned on the rail to slidably engage along the lateral extension of the rail and includes a locator to fix a first position of the carriage along the lateral extension of the rail. The system may also include a robotic arm supported by the carriage, wherein, when the carriage is fixed at the first position, the robotic arm is positioned relative to the cooking device to interact with the cooking device to cook food items.

An apparatus for the automated preparation of cooked food products has a food container for holding the food product during preparation, a dispensing station. for controllably dispensing the food product to the food container, a cooking device designed for at least partially accommodating the food container and for heating the food product held by the container; a dumping station, to which the cooked food product is dropped from the food container and a conveyor mechanism for controllably conveying the food container between the dispensing station, the cooking device, and the dumping station.

An automated cooking system for adding time and labor efficiencies in food production environments such as restaurants. The automated cooking system includes at least a fryer, a dispensing freezer, a hot holding station, a plurality of baskets, and a gantry system. The gantry system includes a gantry control for a gantry, configured to engage and move each of the baskets. The basket and gantry include interface elements for enabling precise movements and rapid opening and closing of baskets at the system. Aspects of an automated cooking system and a corresponding method for discharging cooked food product help to avoid the problems associated with manually operating a cooking system. Specifically, the system described herein provides for apparatuses and methods to cook and dispense food product in a more efficient manner with regard to both time and labor considerations within food production environments.

Methods for managing basket workflow at an automated cooking system. One method includes: illuminating a visual indicator to communicate that a fryer vat is available; identifying, by a camera and an image processor, a food product in the basket; initiating, by a fryer controller, the correct cooking cycle for the identified food product; and illuminating the visual indicator to communicate that the food product in the basket is fully cooked. Another method for managing basket workflow at an automated cooking system includes: detecting, by the camera and the one image processor, that a maintenance operation is required in the fryer vat; illuminating the visual indicator to communicate that the fryer vat is unavailable to be used due to the maintenance operation; and initiating, by the fryer controller, the maintenance operation. An automated cooking system and a method of cooking food products with an automated cooking system are also provided.

Described herein are automated cooking apparatuses for storing and cooking food items as well as methods of operating such apparatuses. In some examples, an automated cooking apparatus comprises a storage unit, a delivery unit, and a cooking unit. The storage unit may be equipped with a refrigeration unit and a container delivery opening. The delivery unit is aligned with this opening and configured to load a set amount of the food items into each food compartment of the cooking unit. The cooking unit moves its food compartments through a cooking tank (e.g., filled with a cooking liquid and heated using a set of heating elements) and into a cooked food receiver. The storage unit or, more specifically, its uncooked food container unit is positioned proximate (e.g., within 200 millimeters) to the cooking tank thereby reducing the time for transporting the food items relative to the cooking time.