A system and method for dispensing sparkling and other pressurized beverages from a container. Sparkling wine and other beverages may be dispensed without removing a cork or other closure. One or more needles may be inserted through the closure and sparkling beverage dispensed through the one or more needles. The one or more needles may be inserted at an angle to the vertical or axis of the bottle opening in which the closure is positioned, e.g., to avoid contact with a metal retainer on the closure. Dispensed beverage may be directed to a pressurized reservoir to help maintain or recover carbonation prior to dispensing.

Systems and methods are provided for dispensing ice and at least one liquid, and related cleaning processes. In one embodiment, the system comprises an ice bin for storing a quantity of ice particles, a dispensing tube for carrying at least a first liquid, and a discharge chute in communication with a discharge outlet, wherein the discharge chute is disposed upstream of the discharge outlet. An outlet end of the dispensing tube is positioned within a portion of the ice bin at a location aligned above the discharge outlet. The ice particles and the first liquid are dispensed through the discharge outlet separately or at the same time.

A system and method for dispensing sparkling and other pressurized beverages from a container. Sparkling wine and other beverages may be dispensed without removing a cork or other closure. One or more needles may be inserted through the closure and sparkling beverage dispensed through the one or more needles. The one or more needles may be inserted at an angle to the vertical or axis of the bottle opening in which the closure is positioned, e.g., to avoid contact with a metal retainer on the closure. Dispensed beverage may be directed to a pressurized reservoir to help maintain or recover carbonation prior to dispensing.

Embodiments of the present disclosure provide a smart water dispenser and a control method thereof. The smart water dispenser includes: a mechanical switch, an electronic switch and a controller. The controller is configured to determine whether water usage is normal according to ON/OFF states of the mechanical and the electronic switches; if so, to indicate a water discharged volume detection unit to collect a water discharged volume; and otherwise, to turn off the electronic switch and transmit a play instruction to a voice playback unit. The control method includes: detecting states of the mechanical switch and the electronic switch in real time; determining whether the mechanical switch is in the ON state when the electronic switch is switched from the OFF state to the ON state; if so, turning off the electronic switch and outputting a prompt voice; and otherwise, collecting the water discharged volume when the mechanical switch is switched from the OFF state to the ON state.

Systems and methods are provided for dispensing ice and at least one liquid, and related cleaning processes. In one embodiment, the system comprises an ice bin for storing a quantity of ice particles, a dispensing tube for carrying at least a first liquid, and a discharge chute in communication with a discharge outlet, wherein the discharge chute is disposed upstream of the discharge outlet. An outlet end of the dispensing tube is positioned within a portion of the ice bin at a location aligned above the discharge outlet. The ice particles and the first liquid are dispensed through the discharge outlet separately or at the same time.

A water drinking apparatus comprises a water cooling device and a temperature detector. The water cooling device has access to data corresponding to a plurality of temperature points within a water temperature range. After detecting, using the temperature detector and in real time, a water temperature of the cold water prepared by the water cooling device, the water drinking apparatus obtains actual data corresponding to each temperature point according to the water temperature of the cold water and determines whether the water drinking apparatus is in a water discharging state according to the data corresponding to the plurality of temperature points within the water temperature range, and the actual data corresponding to each temperature point according to the water temperature of the cold water.

A beverage dispensing system for selectively dispensing a beverage in a vehicle includes a vehicle that has a cabin and an outer surface. A refrigerator is positioned within the vehicle and the refrigerator contains and cools a beverage. A dispensing unit is fluidly coupled to the refrigerator and the dispensing unit selectively dispenses the beverage. The dispensing unit is positioned within the cabin to be accessible to a driver of the vehicle. A charging unit is coupled to the vehicle thereby facilitating the charging to be exposed to sunlight. The charging unit converts sunlight into electrical energy and the charging unit is electrically coupled to the refrigerator and the dispensing unit.

According to the invention, in order to create a container (1) for receiving beverages, in particular a drinks container or drinks cup, at least comprising a base (2) and a circumferential wall (3) projecting approximately perpendicularly from the base (2), which can be produced particularly inexpensively, can be filled within a minimum time and can be securely sealed after the filling, the wall (3) has openings (4) via which the container (1) can be filled with a beverage, wherein the openings (4) can be closed after the filling via a sealing means that is/can be applied from outside to the outer surface of the wall (3). The invention also relates to a device that can fill a container of this type with a corresponding beverage, such as beer or a soft drink, within a minimum time, said device being simple to operate, inexpensive and simple to produce and having a long service life.

A water dispensing device, including: a coupling to attach a water supply source to a structured water generator that receives the water and is configured to output structured water, the structured water generator including: a motor, a vortex generator configured to rotate at a speed; a reactor coupled to the structured water generator and the water supply source; a gas supply configured to provide one or more gases; a magnetizer coupled to the structured water generator, the magnetizer being configured to receive the structured water and to generate a magnetic field within the magnetizer to align the structured water in a direction by one or more magnets generating an electromagnetic field in a conductive material that produces magnetization by induction; and a dispenser coupled to the magnetizer, the dispenser being configured to dispense the structured water received from the magnetizer. Also provided are methods of producing a structured water.

A water dispensing device, including: a water supply source; a structured water generator coupled to the water supply source to receive water and configured to output structured water, the structured water generator including: a vortex generator configured to rotate at a speed; a reactor coupled to the structured water generator and the water supply source, the reactor being configured to generate H.sub.2 and to transfer the H.sub.2 to the structured water generator; a gas supply coupled to the structured water generator, the gas supply being configured to provide one or more gases to the structured water generator; a magnetizer coupled to the structured water generator, the magnetizer being configured to generate a magnetic field to align the structured water in a direction; and a dispenser coupled to the magnetizer, the dispenser being configured to dispense the structured water.