The purpose of the present invention is to provide a multifunctional cooking oven comprises an oven cover, an oven body, a first heating device, a second heating device, an elastic device and a first control panel, wherein the oven cover is hinged with the oven body, the rotation angle between the oven cover and the oven body falls in between 0 degree and 180 degrees; the first heating device is arranged on the bottom surface of the oven cover, and the elastic device is arranged in the inner cavity of the oven body; the second heating device is arranged in the inner cavity of the oven body and connected with the elastic device, which drives the second heating device to go up and down; the multifunctional cooking oven also comprises a pot cover, which is buckled onto the pot body; in a word, the multifunctional cooking oven has multiple functions and thus possesses powerful practicability.

A cooking system includes an appliance defining a food product volume and a fluid aperture fluidly coupled to the food product volume, a conduit configured to fluidly couple a fire suppressant supply to the fluid aperture, the fire suppressant supply being configured to provide a fire suppressant agent, a flow restrictor positioned along the conduit and configured to restrict a flow rate of the fire suppressant agent through the conduit, and a check valve positioned along the conduit. A portion of the conduit extends between the check valve and the fluid aperture and fluidly couples the check valve to the fluid aperture. The conduit is configured to introduce the fire suppressant agent from the fire suppressant supply into the food product volume of the appliance through the fluid aperture.

A cooking equipment running method and device are provided, and relate to the technical field of terminals. The method includes: a current running mode is acquired if it is detected that a water level of cooking equipment exceeds a preset water level during a running process of the cooking equipment; a target running mode is determined according to the current running mode, heating power in the target running mode being less than heating power in the current running mode; and the current running mode is switched to the target running mode.

For the monitoring of an oil situated in a tank 19, it is provided that an oil measurement device 1 be equipped with a rigid or flexible probe 2 such that, by the use of a pump 5 integrated in the oil measurement device 1, oil can be delivered out of the tank 19 via an inlet opening 3 at the proximal end of the probe 2 into a measurement chamber 4, which is connected to the probe, of the oil measurement device 1. Here, the oil measurement device 1 has a measurement sensor for determining the quality of oil situated in the measurement chamber 4, and the pump 5, in conjunction with the probe 2, is configured such that oil can be returned from the measurement chamber 4 to the inlet opening 3 and thus to the tank 19.

An automated cooking system is provided 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. A method for managing basket workflow during food preparation at an automated cooking system is described. Further, a method for managing basket workflow at a dispensing freezer during food preparation at an automated cooking system is described. The automated cooking system and methods provide repetition of basket loading and discharge cycles such that the gantry can fully manage and automate cooking using up to 6 or more baskets at the fryer, thereby maximizing food product throughput in the standard footprint space for the fryer.

A characteristic of edible oil may be evaluated using a spectrometer. For example, optical reflectance data may be obtained from edible oil in situ in a frying apparatus housing the edible oil, the reflectance data corresponding to a specified range of infra-red wavelengths. A model profile corresponding to the characteristic being assessed may be obtained, such as from a repository housing a secured library of such profiles. The model profile may define a regression vector for use in transforming the reflectance data to generate a value corresponding to the characteristic being assessed. A criterion may be applied to the value to establish a simplified representation of the characteristic for presentation to a user for assessment of oil quality.

Food holding, mounting, and/or positioning devices, with particular application to, although not necessarily limited to, supporting unitary articles of food, including, but not necessarily limited to, deep frying large fowl, including Thanksgiving Day sized turkeys. A simplified cooking liquid filtering apparatus. A method and apparatus to simplifies, and makes more accurate, cooking liquid dispensing, and measurement. Example devices use liquid to cook foods, with particular application to, but not limited to, deep frying large unitary food articles, including, but not limited to, large fowl, including Thanksgiving Day sized turkeys. Further example devices store, dispense, and measure pourable materials, including both liquid and dry materials. An informational device, with particular applications to, but not limited to, provides instructions, and more particularly, although not limited to, providing operating instructions for household cooking devices.

A robotic kitchen assistant for frying includes a robotic arm, a fryer basket, and a robotic arm adapter assembly allowing the robotic arm to pick up and manipulate the fryer basket. The robotic arm adapter includes opposing gripping members to engage the fryer basket. A utensil adapter assembly is mounted to the handle of the fryer basket, and the opposing gripper members are actuated to capture a three-dimensional (3D) feature of the utensil adapter assembly. The robotic arm adapter assembly can include an agitator mechanism to shake the fryer basket or another utensil as desired. Related methods are also described.

An architecture is presented that provides an oil monitoring device designed primarily to monitor, measure, and display measurement parameters for a containment tank of fresh or waste oil. The monitoring device can be positioned on the containment tank of fresh or waste oil, or can be positioned proximate to the containment tank, as long as the monitoring device remains in communication with the containment tank. The monitoring device comprises a real-time level sensor that is in communication with the containment tank of cooking oil. The level sensor measures usage and collection volumes, as well as filtration status of the containment tank in real-time and displays the information to a user via a display. Furthermore, the monitoring device comprises alarms to alert users of specific oil levels. The monitoring device can either be a stand-alone device or be linked to a computer program to function as a data management system.

Method for continuously making kettle style potato chips. A continuous cooking process is disclosed without regard or need to mimic the U-shaped temperature-time profile typically used to create kettle-style fried potato chips. Potato slices are placed directly into hot oil of a single continuous fryer having multiple temperature zones, with no flume frying prior to placement therein and without regard to a monolayer arrangement. Cool oil from the end of the continuous fryer to the upstream portion of the fryer ensures continuous achievement of an initial low temperature profile, lower than that of previous methods. A further dip in temperature profile is achieved as water evaporates from the slices. The potato slices are then further fried in the downstream portion of the fryer in one or more regions having increased hot oil temperatures, which occur through the injecting of hot oil into the downstream portions.