The brewing system disclosed herein includes a moving inlet nozzle for use in intermixing hot water and coffee in a coffee cartridge. The inlet nozzle may include one or more flow ports that inject hot water into an inner chamber of the coffee cartridge at select angles, locations and pressures to create the desired fluidized mixture of hot water and beverage medium.

A drip filter coffee making device has a filter basket with a lid. The lid supports a water dispenser for wetting grounds in the filter basket. The basket is removable from a body of the device. The lid may have a dampened opening motion, biased into an open position by a spring.

Temperature control for extracted beverages, including coffee, via controlled vacuum, and associated systems and methods are shown. A representative system includes a brew chamber, a beverage chamber in fluid communication with the brew chamber, a vacuum source in fluid communication with the beverage chamber, and a flow control device positioned to vary the force applied by the vacuum chamber on the brew chamber via the beverage chamber.

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 machine (1) for preparing and dispensing a beverage (2) comprises: a main body (10) containing a unit (11,12,13,14,15) for preparing said beverage (2) to be dispensed via an outlet (21) to an external user-recipient (3) at a user-recipient placement location (30); a beverage dispensing head (20) that includes the outlet (21) and that is movable relative to the main body (10) inwards into the main body (10) into a retracted head position and outwards from the main body (10) into a deployed head position; anda control unit (16) for controlling the preparation unit (11,12,13,14,15) to supply said beverage (2) to the outlet (21). The control unit (16) is configured to: maintain or leave the beverage dispensing head (20) in its retracted position when the beverage preparation unit (11,12,13,14,15) is not operated to process a liquid; and/ormove the beverage dispensing head (20) into its deployed position or maintain or leave it in this position only when the control unit (16) operates the preparation unit (11,12,13,14,15) to process a liquid for dispensing via the outlet (21).

A mobile terminal includes: a wireless communication unit configured to communicate with a beverage-making apparatus; a display unit; and at least one processor. The at least one processor is configured to: receive, through the wireless communication unit, beverage-making state information indicating a state of the beverage-making apparatus; and generate content to be output through the display unit, based on the received beverage-making state information of the beverage-making apparatus.

A beverage self-propelling and production system comprises a beverage production region, a self-propelled vehicle device and a server appliance wherein: the beverage production region has several beverage production workstations, several trajectory line objects and several sensor elements; the server appliance receiving at least a group of order messages drives the self-propelled vehicle device to move along the trajectory line objects and stop at different beverage production workstations, controls supplies of ingredients at the beverage production workstations, and depends on the order messages to change a move path of the self-propelled vehicle device for production and output of a beverage product after completion of the self-propelled vehicle device passing through different beverage production workstations in turn.

Disclosed is a method of recognizing a type of coffee from a plurality of reference types of coffee, each reference type of coffee being associated with a respective reference signal, said method comprising the steps of sensing, by one or more sensors, the presence and concentration of one or more volatile organic compounds in a mixture of volatile organic compounds released from the coffee; generating a signal representative of the coffee according to the volatile organic compounds that have been sensed and their respective concentrations; comparing the generated signal with the reference signals associated with each reference type of coffee; generating a recognition signal in response to the comparison of the generated signal with the reference signals.

A portable, self-contained beverage apparatus includes a container assembly having a known storage capacity for storing a consumable liquid, and a dispensing assembly disposed within the container assembly that dispenses variable, non-zero quantities of additives into the consumable liquid. The dispensing assembly includes multiple apertures structured and arranged to retain vessels containing the additives to be dispensed into the consumable liquid. The beverage apparatus also includes a level sensor disposed within the container assembly that determines a consumable liquid level of the consumable liquid stored in the container assembly. In certain embodiments, one or more positive displacement pumping mechanisms are configured to pump additive liquid from additive containers into a beverage chamber.

A beverage preparation machine for preparing at least one beverage from a beverage material includes a modem for communication with a remote resource such as a server, and is configured to send machine remote management data to the remote resource. The machine comprises location system configured for automatic geolocation of the machine, and is configured to send to the remote resource location information determined by the location system. This for example makes it possible to confirm or correct the location of a machine, to correct mistakes that can occur when a machine is installed or moved, or to take appropriate measures when a machine is stolen. In another embodiment, a system includes such a beverage preparation machine and a remote resource with which it is configured to communicate. In a further embodiment, a method is provided for remote management of a beverage preparation machine.