The present disclosure provides a pot assembly and a cooking appliance, the pot assembly comprising an inner pot and a food steamer. The inner pot defines a cooking chamber; the food steamer is placed in the cooking chamber, the food steamer is provided with communication holes communicating with the cooking chamber, the food steamer comprises a bottom wall; the inner pot and/or the food steamer is provided with a draining-steaming-cooked rice waterline, and the draining-steaming-cooked rice waterline is higher than the bottom wall of the food steamer. In the pot assembly provided by the present disclosure, by arranging the draining-steaming-cooked rice waterline to be higher than the bottom wall of the food steamer and determining the amount of a solution and the amount of a material to be cooked according to the information of solution and the information of material to be cooked indicated by the draining-steaming-cooked rice waterline.

Apparatus, method and storage medium associated with a beverage dispensing apparatus are disclosed herein. In embodiments, a beverage dispensing apparatus may include a dispenser to dispense a beverage into a beverage container placed underneath the dispenser; one or more sensors to sense and collect depth data associated with the beverage container; and a controller coupled to the dispenser and the one or more sensors to control the dispenser's dispensation of the beverage, in accordance with a capacity of the beverage container inferred based at least in part on the collected depth data associated with the beverage container. Other embodiments may be disclosed or claimed.

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.

A beverage maker platen overflow sensing system is disclosed. The sensing system includes a process control board (PCB) in communication with solenoid valves of a manifold, the solenoid valves controlling the flow of hot water (e.g., for brewing coffee or tea) into a server positioned in a platen of the beverage maker. The PCB further includes an overflow detection circuit connected to the solenoid valves. Two signal probes are positioned near the forward edge of the platen. Similarly, ground probes are positioned in the platen below the signal probes and providing a ground path to the PCB. The overflow detection circuit generates an electrical signal between the signal probes and detects an overflow state when fluid in the platen grounds the signal between the signal probes and the ground probes. While the overflow persists, the overflow detection circuit ceases the water flow by electrically signaling the solenoid valves to close.

A beverage maker device is disclosed. In embodiments, the device includes an external housing and a water tank coupled to a water supply via an inlet. The beverage maker includes a manifold within the housing, the manifold controlling the dispensing of the water into a server or through a faucet via solenoid valves. The beverage maker includes a pressure transducer coupled to the inlet and capable of sensing a flow pressure of the water through the inlet, sending a pressure signal to the beverage maker control circuitry based on the determined flow pressure. The control circuitry receives the pressure signal and determines a flow volume of the water through the inlet based on the flow pressure; if the flow volume reaches a flow threshold, the control circuitry cuts off the flow of water via the solenoid valves.

A beverage maker device is disclosed. In embodiments, the device includes an external housing and a water tank coupled to a water supply via an inlet. The beverage maker includes a manifold within the housing, the manifold controlling the dispensing of the water into a server or through a faucet via solenoid valves. Within the inlet body connecting the tank to the water supply are plumbed two pressure transducers on either side (e.g., tank-side and coupling-side) of a restriction orifice. The tank-side and coupling-side pressure transducers sense flow pressure on their respective sides of the restriction orifice and generate tank-side and coupling-side flow pressure signals. Within the housing a process control board (PCB) includes control processors and control circuitry in communication with the solenoid valves. The PCB control processors determine a differential pressure associated with the water flow based on the received tank-side and coupling-side pressure signals.

A system for remote management of smart grinding device is provided. The system includes a device configured for performing a plurality of functions based on a one or more inputs received. The plurality of functions includes identifying, weighing, dispensing, cleaning, soaking, grinding, fermenting, altering the proportions and storing of one or more ingredients for preparation of an edible composition. The system also includes a communication interface configured for communicating the one or more inputs to the device and further communicating a real time information related to the plurality of functions performed, to a remote server via a wireless network. The system also includes the remote server configured for continuously analyzing the real time information related to the plurality of functions performed by the device by using artificial intelligence (AI) for generating the one or more inputs for the plurality of functions.

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.

An integrated device including a vessel, a gas reservoir, a pressure regulation device, a primary filter, and a tap assembly. The vessel is configured to contain a beverage. The gas reservoir is configured to supply pressurized gas within the vessel. The pressure regulation device is configured to maintain an infusing pressure within the vessel and also a dispensing pressure within the vessel. The primary filter is configured to hold solid brewing media, to fit inside the vessel, and to be removable from the vessel. The tap assembly is configured to dispense the beverage from the vessel. Methods are also disclosed.

A multi-sensor interactive cooking device is disclosed herein. In one embodiment the device may comprise a cooking device, such as a pan or pot, integrating a plurality of sensors, a visual display, and an electronic interface. The device may have sensors for measuring, for example, food weight, food temperature, and food volume. The various sensors may be installed within or on the device as appropriate to the form factor of the particular cooking device. By way of example, a cooking device with a longer handle may have a plurality of sensors installed within the carrying handle. A device having shorter handles may have the plurality of sensors installed within its base. The multi-sensor interactive cooking device may further integrate a wireless connectivity and a proprietary software for additional functionality.