A contactless beverage dispenser, system, and method of contactlessly dispensing a beverage are disclosed herein. Embodiments of the present invention utilize a sensor that is operatively coupled to a pump for selective activation thereof. The sensor detects, in a sensor zone, the presence of a beverage container proximal a dispensing spout of the beverage dispenser. The sensor may be a proximity sensor, such as a photoelectric sensor. Upon detection of the beverage container, the pump is activated and dispenses a beverage to a user.

The present disclosure is directed to systems and methods for parallel and scalable processing of messages containing telemetry data at an administrator system. The administrator system can receive a large number of messages containing telemetry data from many dispenser machines in a short amount of time. To receive and process those messages, the systems and methods of the present disclosure provide a message queuer to queue the messages (or at least the telemetry data in the messages) in a plurality of queues and a different thread or process for each of the plurality of queues. Each thread or process can pull messages out of its assigned queue in order and process the telemetry data of the messages. The threads or processes can run on one or more central processing unit cores at the administrator system. This setup allows for horizontal scaling in terms of message processing throughput.

A beverage monitoring system is provided for a beverage system that includes a pressurized gas source, pressurized gas regulators, pressurized gas distribution lines, beverage distribution lines, beverage vessels, and beverage dispensers. The beverage monitoring system comprises at least one gateway that includes a processor, a network interface connected to dispensers, and a network interface connected to sensor assemblies. The beverage monitoring system also includes a sensor assembly. The sensor assembly is configured to run diagnostics to diagnose a potential problem with the line, or provide consolidated information for correlation with point-of-sale data.

Ingredient dispensing systems and methods in a fluid mixture system using a monitored chamber pressure are disclosed. One system includes a chamber, an inlet to the chamber, a set of ingredient reservoirs, in the chamber, storing a respective set of ingredients and sealed by a respective set of valve, a pressure source, and a controller. The system is programmed to set a pressure of the chamber using the pressure source and the inlet to the chamber. The system is also programmed to dispense, using the pressure, at least two ingredients from the respective set of ingredients by actuating at least two valves from the respective set of valves.

A liquid product distribution network includes a keg distribution monitoring and reporting apparatus associated with a keg. The apparatus includes a radio transmitter device and sensing circuitry for sensing and communicating physical properties associating with the keg. A top or bottom chime of keg physically protects the sensing circuitry during keg distribution in the keg distribution network. The apparatus also includes a battery power supply unit fitted within and protected by the top or bottom chime. The apparatus further includes a unique identifier associated with the sensing and reporting device. The apparatus further includes a mobile communications device is configured to identify the keg based on the unique identifier associated with the sensing and reporting device embedded therein, and receive and process the radiofrequency signals from the radiofrequency signal transmission circuitry of the identified keg passively and without user interaction, for monitoring the physical properties and location of the keg.

An interactive beverage dispensing system, including one or more keg style beverage connections and or containers, optional carrier gas assembly, optional temperature regulating housing for the one or more keg style beverage containers and the carrier gas assembly, a faucet assembly including least one faucet, a solenoid valve assembly having at least one solenoid valve a quick release system which connects each of solenoid valves to a faucet of the faucet, a quick release system which connects solenoid valves to the keg style beverage containers and the carrier gas assembly; a display interface system; and at least one processor. The system further includes memory storing computer readable instructions, when executed by the at least one processor to perform numerous functions. The system can be networked with one or more servers and can be integrated into known point-of-sale systems.

A post-mix beverage dispenser utilizing a beverage dispensing valve including a movable valve activation device is provided. The beverage dispensing valve can move the valve activation device to a predetermined activation position to dispense a fluid in response to a control signal.

Systems and methods for dispensing chilled wine using a dispensing appliance. The appliance generally comprises a housing or enclosure protecting internal components and providing a chilled chamber for wine storage and an unchilled chamber for electric and other components. An airtight wine “silo” containing a packaged wine is insertable into a cradle in the chilled chamber for attaching to a fluid connector system. The user operates a handle to control wine flow. Identifiers on the silo may be read and transmitted to a server, where learning algorithms can suggest alternative wines the user may like based on user feedback about prior wines used with the appliance.

An automated consumable dispenser with a precision method for delivering consumable ingredients in specific proportions to a container up to a specified volume. This method involves the use of a system of sensors and a micro-microprocessor, which detects, digitizes and develops a three dimensional rendering of the container, calculates the container volume and dispenses specific amounts of consumable ingredients. A user is able to pick the level in the vessel to which the consumable ingredients should be dispensed and displays the selected desired level. The embodiments described include an automated dispenser capable of dispensing beverages and food items, either separately or together.

Cooler control system for a beverage dispense system 1 having a beverage line (2) extending from a beverage source to a dispense site via a cooler (6). The cooler control system comprises: a controller (51) for adjusting the cooling of the beverage line; a flow rate sensor (41) measuring the flow rate in the beverage line, a temperature sensor (40); and an electronic control unit (31) for receiving a signal from the temperature sensor and/or the flow rate sensor and sending a signal to said controller. Cooler monitoring system comprising: at least one sensor (45) for monitoring energy consumption of the cooler (6); and an electronic control unit for receiving a signal from the at least one energy consumption sensor and for sending a signal to a remote location when energy consumption increases above a predetermined maximum value.