A cooking appliance includes: a base; a heater basin mounted above the base and comprising a floor and a side wall that form a cavity configured to hold water, the side wall having a perimeter edge; a heating element mounted beneath the floor of the heater basin and configured to be connected to a power source; an egg cup unit comprising a main panel and at least one cup depending from the main panel, the main panel having a perimeter edge, the at least one cup having a floor that contacts the floor of the heater basin; and a lid attached to the base and configured to cover the egg cup unit. The perimeter edge of the heater basin and the perimeter edge of the egg cup unit are in contact, the interaction of the perimeter edge of the egg cup unit and the perimeter edge of the heater basin configured to impede flow of steam generated by boiling water in the cavity of the heater basin.

The present invention provides a steamer system and method for efficiently steam cooking or heating food items and avoiding unnecessary usage stoppages or delays. The steamer system comprises an enclosed cooking space cavity, a water boiling apparatus for generating steam, a drain system, a power source, a processor, a display, and a graphical user interface accessible by a user via the display. The steamer system further comprises a series of water detection sensors positioned within the water boiling apparatus water reservoir at progressively higher points and electrically connected to the system processor. When a first water detection sensor is fouled, the system processor is configured to relinquish control to a second water detection sensor and initiate a shut down clock to allow limited continued use of the steamer before cleaning. If a third water detection sensor senses water at any time, the steamer system shuts down.

Provided is an imitated pour-over coffee maker capable of high-temperature control, including: a body having therein a water tank and a coffee-making tank; a human-machine interface module; a first coffee-making module; a second coffee-making module; a first control module; and a second control module for reading a signal of a third temperature sensor to control a second solenoid valve to perform coffee-making commencement or perform water-return commencement for returning water to the coffee-making tank. High-temperature control can be exercised over water dispensed by the delivery head, thereby optimizing the automation of imitated pour-over coffee making.

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.

The disclosure discloses a multi-functional beverage container that includes a multi-walled evacuated vessel body; an integrated juicing element to releasably nest within the multi-walled evacuated vessel body; a multi-walled vessel top that realeasably seals to the multi-walled vessel body and to receive the juicing element; and a multi-walled cap that realeasably seals to the multi-walled vessel top. The container may further comprise a planar straining element for straining purposes, various sealing gaskets, integrated volumetric measuring indicators, a fluid within the dual walls comprising a freezing point below at least zero degrees Celsius to maintain a chilled nature of a stored liquid within the container. The container may comprise thermo-chromatic paint to indicate a representative temperature has been achieved, external portions to comprise textured elements to facilitate grasping and twisting, and an internal sensor to wirelessly communicate a measured weight to a secondary wireless device.

A cooking accessory for a springform pan includes a reusable, expandable sleeve, with a demarcation cooking bath fill line. The cooking accessory for a springform pan may be useful for preventing liquid from a cooking bath from entering between the removable bottom and the clasped collar of a springform pan.

An operable measuring attachment for a mixing appliance includes a mixing bowl defining a mixing interior, a housing having a protrusion attachable to the appliance and a plurality of containers each having an interior volume. Each container is alternatively operable between a measuring position engaged to a top of the housing, and a disengaged position distal from the housing. The operable measuring attachment also includes a magnetic coupler having a first magnetic member disposed proximate the base of each of the plurality of containers and a second magnetic member disposed proximate the top of the housing. The selective magnetic engagement of the first magnetic member of any one of the plurality of containers and the second magnetic members further defines the measuring position. A scale is disposed within the housing that is in communication with the interior volume of the container in the measuring position.

A capacitive sensor and control system is configured to detect the presence (or absence) of fluid within a container. Configured in a vat or frypot of a deep fryer, the sensor determines when a level of liquid within the frypot is at or above the level of the sensor. The sensor is in communication with the control system and the sensor sends a signal to the control system representative of the presence or absence of liquid within the frypot and at the level of the sensor. The controller receives the signal from the sensor, and allows operation of the one or more heat sources for heating the frypot when the signal received from the sensor is representative of liquid being disposed within the frypot at or above the level of the sensor, and prevents operation of the one or more heat sources when the signal received from the sensor indicates that liquid is not disposed within the frypot at or above the level of the sensor.

An air fryer with a steaming function includes a cooking chamber and a water tank arranged inside a housing. A steam generator is also arranged in the air fryer. A heating chamber is provided in the steam generator. The heating chamber in the steam generator is connected to a water tank via a water pump. High-temperature steam produced in the heating chamber of the steam generator is introduced into the cooking chamber. The steam generator is equipped with an over-temperature protector and a temperature sensor. Each of the over-temperature protector, the temperature sensor, the water pump, and the steam generator is electrically connected to the controller.

A pressurized beverage dispensing device that includes a vessel, a gas reservoir, a pressure regulation device, a primary filter, and a tap assembly. The gas reservoir is configured to supply pressurized gas within the vessel. The pressure regulation device is configured to maintain a pressure within the vessel that is above ambient pressure. The primary filter is configured to fit inside the vessel and to be removable from the vessel. The tap assembly includes a tap valve, a restrictor, and a flow straightener. The tap valve is configured to control dispensing through an outlet path. The restrictor is within the outlet path of the tap assembly and is configured to accelerate a flow of beverage to a turbulent flow. The flow straightener is within the outlet path of the tap assembly, downstream of the restrictor, and is configured to recombine, slow, and straighten the flow of beverage.