An oil filter deep fryer is designed for the technical issues of unsatisfactory structural design of the existing like products. The oil filter deep fryer comprises a housing, lid, control box, heating tube, inner pot, oil receiver and food basket. The deep fryer enables the oil receiver to pull out or lock in the housing and drain the waste oil into the oil receiver through a knob.

An appliance for frying has a frying pot disposed within a housing for containing oil or fat and having a normally-closed valve disposed at a bottom thereof. An oil receiving tank is removably receivable within the housing below the frying pot, and has an oil receiving hole positionable below the valve such that when the draining valve is opened, the oil or fat may flow from the frying pot into the oil receiving tank. An actuation mechanism disposed entirely on the housing has a first condition wherein the activation mechanism allows removal of the oil receiving tank relative to the housing, a second condition wherein the activation mechanism prevents removal of the oil receiving tank relative to the housing while not opening the valve, and a third condition wherein the activation mechanism prevents removal of the oil receiving tank relative to the housing while opening the valve.

A system for transporting and measuring the quality of cooking oil in a system. The system may include a fryer unit, a feed tank, a storage receptacle, and either a pumping station, direct flow pathway from the fryer unit to the storage receptacle, or both a pumping station and a direct flow pathway from the fryer unit to the storage receptacle. At least one oil quality sensor for measuring the quality of the oil, such as by measuring the electrical properties of the oil, may be placed in one of the various lines of the pumping station, in the direct flow pathway from the fryer unit to the storage receptacle, or any combination thereof.

Provided is a method of cooking for a food-cooking appliance having a reception means designed to receive the food products, a motion-inducing means positioned inside the reception means, and at least one main heating means. The method includes: a first cooking step during which the relative rotation of the reception means and of the motion-inducing means is neutralized and at least one main heating means is operated in order to regulate the temperature to a first set-point value; and a second cooking step during which the relative rotation of the reception means and of the motion-inducing means is active and at least one main heating means is operated in order to regulate the temperature to a second set-point value higher than the first.

Systems, methods, and computer program products are disclosed for controlling a fryer. In response to determining a filtration cycle is scheduled to occur after a current cooking cycle, a temperature set-point for a cooking medium is increased to pre-heat the cooking medium prior to the end of the cooking cycle. A heating element used to heat the cooking medium may be deactivated prior to entering the filtration cycle, and reactivated during the filtration cycle in response to the filtered cooking medium in the fry pot reaching a predetermined level. Activating the heating element during the filtration cycle may further heat the cooking medium prior to starting the next cooking cycle, thereby reducing the total time needed for filtration and reheating for a subsequent cooking cycle.

Provided is an electrical fryer including an inner pot configured to contain oil, an oil filter configured to filter oil and drain oil contained in inner pot, an electrical heater. The electrical fryer further includes: a knob mechanism comprising a knob presenting an oil filtering position and at least one heating position; an oil filtering control mechanism connected between the knob mechanism and the oil filter; a temperature control mechanism comprising a switch assembly being drivingly connected with the knob mechanism; wherein, the knob is turned so as to switch between the oil filtering position and said at least one heating position, and when the knob is turned to the oil filtering position, the knob mechanism drives the oil filtering control mechanism to open the oil filter and the knob mechanism controls the switch assembly to switch it off so that the electrical heater is not energized, and when the knob is turned to said at least one heating position, the knob mechanism controls the switch assembly to switch it on so that the electrical heater heats the inner pot.

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.

The present invention is a cooking-oil filtration system for automated cooking apparatus which has a solids-removing filter for cleaning cooking oil from the food-fryer and returning oil to the cooking apparatus. The system comprises a solids-removing filter enclosure which includes a plurality of doors having electronically controlled locks with lock-state feedback, a controller including memory and software for controlling the system and a user interface, a number of electrically-controlled pumps, valves, actuators and sensors, the user interface comprising screens with icons representing system set-up, status, and actions. The screens include a main screen, an operator controls screen with controls including door-lock controls displaying door-lock status and controls to lock and unlock the doors, such unlocking permitted only when at least one pump is off and the filter-chamber pressure is below a predetermined pressure, one or more status screens displaying filter operation status, and one or more setup screens.

A cooking device is for cooking food on a support (e.g. in a basket) within a cooking chamber. A required cooking time is determined based only on the time-evolution of the cooking chamber temperature and a power of the heating device. A first, less accurate, estimate of the required cooking time is determined within a first period, e.g. 90 seconds, of the turning on of the heating device and a second, more accurate, estimate of the required cooking is determined later, but e.g. within five minutes of the turning on of the heating device.

An electric deep cooker including a main body and cover adapted to fully enclose food therein that includes a plurality of main electric heating elements connected along the interior surfaces of the main body and cover and are adapted to uniformly heat and cook food through its entire outer surface from the outside in, and further includes an electric interior heating element attached to the cover and adapted to be placed within the food being cooked and thereby heat and cook the food from the inside out while the plurality of main heating elements heat and cook the food from the outside in, to thereby uniformly and properly heat and cook the food, and in a shorter amount of time, than prior art electric deep cookers, and without the need to rotate the food within the main body of the electric deep cooker.