A dosing pump for dosing metered amounts of liquid product, includes an inlet adapted to be fluidly connected to a storage container, an output adapted to be connected to a beverage dispensing machine for receiving metered amounts of liquid product, and a dosing chamber arranged for transferring a liquid from the inlet to the output. The dosing chamber is at least partly filled with a liquid different from the liquid product. The different liquid can be a cleaning fluid, or be food compliant. The dosing pump can be included in an exchangeable supply pack filled with the liquid product for connecting to a beverage dispensing machine, and the output can be adapted to be brought into fluid connection with a beverage dispensing machine. When associated with a beverage dispensing machine, the dosing pump can be operated to allow the different fluid to be pumped through the beverage dispensing machine prior to a first dosing cycle of liquid product.

Examples disclosed herein relate to a dispensing device including a product unit with a pressure which transmits one or more products to an infuser, a water source with one or more CFValves that transmits water to the infuser, a gas source which transmits one or more gases to the infuser, and a dispensing area which dispenses a mixture generated via the infuser from a product unit input, a water source input, and a gas source input.

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 beverage supplying device comprising: a touch panel for receiving an operation for selecting a main syrup constituting a main beverage, and a topping syrup added as flavoring to the main beverage; a second syrup solenoid valve for opening and closing a passage for supplying the topping syrup that is stored under pressure in a syrup tank; a second syrup pump for intermittently supplying the topping syrup while the second syrup solenoid valve is open, the second syrup pump being provided to the passage for supplying the topping syrup between the syrup tank and the second syrup solenoid valve; and a nozzle for producing the main beverage by mixing the main syrup with water or carbonated water at a prescribed ratio, and producing a beverage by mixing the topping syrup with the main beverage without diluting the topping syrup.

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.

A liquid dispenser is provided. The liquid dispenser includes a housing; a temperature control system; and a pump system. The pump system pumps multiple liquids. A method of dispensing a liquid into a beverage is also provided. A liquid dispenser includes a valve, a pump, and a nozzle. A liquid is selected from multiple liquids and a beverage shade is selected. The valve and the pump are activated to deliver the selected liquid to the nozzle in an amount that achieves the selected beverage shade.

A shutoff switch for dispensing mixed beverages is presented. The shutoff switch includes a syrup inlet receiving syrup and a syrup outlet dispensing the syrup to a pump. The shutoff switch also includes a water inlet receiving water, and a water outlet dispensing the water to a either the pump or a dispensing point. Two distinct inlets and outlets for syrup and water prevent the syrup and water being mixed in the shutoff switch. The shutoff switch further includes a pressure responsive member that deforms based on pressure changes in the shutoff switch. When the deformation of the pressure responsive member reaches a threshold, an electrical gate in direct communication with the pressure responsive member opens, turning of a pump of the beverage dispensing system. Valves in either chamber of the shutoff switch can also be used as a redundant mechanical way to stop flow in the system.

A beverage order fulfillment system allows for beverage fulfillment from a mobile device without requiring a custom software application on the mobile device but uses a web connection to control beverage dispenser operations instead. The mobile device incorporates web browser software, and the web browser software is configured to initiate communication sessions with the at least one server. Data entry options are displayed on the interactive GUI for the first computer to communicate beverage selection commands to the beverage dispensing software, via the at least one server, in a respective instance of beverage fulfillment. The at least one server incorporates web socket application program interfaces (APIs) stored on the at least one server and configured to connect a communications link to the beverage dispenser and the web browser software on the first computer.

A system for mixing a liquid beverage (e.g., a beer) from multiple liquid ingredients and dispensing the liquid beverage includes: a mixing chamber having an inlet valve and an outlet valve; a pump for drawing liquid into the mixing chamber through the inlet value; a manifold in fluid communication with the inlet valve of the mixing chamber and a source of each of the liquid ingredients (e.g., a keg); a tap associated with the mixing chamber for dispensing the liquid beverage mixed in the mixing chamber; and an electronic control module in communication with the pump, the electronic control module being programmed to cause the pump to sequentially draw a predetermined volume of more than one of the liquid ingredients into the mixing chamber, the predetermined volumes corresponding to a recipe for the liquid beverage.

A smart energy-saving device for automatic blending drinks, adopted to inject beverages into at least one beverage cup that comprises a bar code, comprises: beverage barrels; manifolds; at least one ice-storing device including at least one ice outlet, at least one servomotor, a stirring rod, and at least one thruster; beverage stations; collection mechanisms including ring structures, ice inlets, water inlets, and beverage tubes; and a control module including flowmeters, water valve switches, beverage-cup-weight sensors, beverage-barrel-weight sensors, at least one ice-beverage-barrel-weight sensor, pressure sensors, bar code readers, infrared scanners; and a controller.