A liquid dispenser may include a container having an upper opening, a pump provided in the container, a pipe through which liquid discharged from the pump is transferred, a top plate having an upper surface over which liquid flows, a filter assembly provided below the top plate, a base provided below the container, and a thermoelectric element provided in the base to cool the liquid in the container.

A removal system (1) with an interface 5a for releasable connection to an extraction head (2) of the removal system (1), such that the tube (5) can be used as a single-use part for removing fluid from a container.

A modular fluid dispensing system includes a rigid bottle and multiple swappable base units. The modular fluid dispensing system includes a bottle housing to house a rigid bottle, a dispenser to dispense the fluid, and an attachment mechanism to reversibly affix the modular fluid dispensing system to a support structure. The bottle housing includes a threaded fastener to form a seal with the rigid bottle and a puncturing taper to puncture a seal of the rigid bottle. The dispenser includes a pump to initiate flow of the fluid from the rigid bottle and out a nozzle in response to a command signal from a sensor. The dispenser also includes a vacuum break port to allow an external fluid to replace the fluid in the bottle and prevent formation of a vacuum.

A method and dispensing apparatus for dispensing one or more liquids from a liquid storage container operably connected to the dispensing apparatus. The one or more liquids may include cold water, cold carbonated water, hot water and/or ambient temperature water. The dispensing apparatus preferably is a self-contained dispensing apparatus, i.e., a dispensing apparatus having its own source of liquid. The dispensing apparatus further preferably includes a housing storing a first cooled liquid reservoir and a second cooled liquid reservoir. The first cooled liquid reservoir preferably stores cold water and the second cooled liquid reservoir preferably stores cold carbonated water. A thermal link preferably connects the first cooled liquid reservoir and the second cooled liquid reservoir to cause thermal energy to be transferred between the first cooled liquid reservoir and the second cooled liquid reservoir.

A cap for engagement with a beverage container allows an extractor needle or other conduit to pass through a portion of the cap such that beverage can be removed from the container without removing the cap. The cap may include a septum that is radially and/or axially compressed and a barrier layer arranged to engage with the container to form a seal.

A self-propelling container having: a top; a bottom; a plurality of vertical walls extending between the bottom and the top; an inner bag for holding contents to be dispensed; a female coupling configured to receive and establish a friction seal with a male coupling of an external device for inserting or extracting the contents to or from the container after the friction seal is established between the female and male couplings; and at least one independent panel positioned inside the container; a compressible element associated with the at least one independent panel wherein during filling of the inner bag the compressible element is compressed, thus causing the at least one independent panel to exercise pressure onto the inner bag, and thus, helping to empty the inner bag.

A system for the preparation of a liquid product comprises a disposable cartridge filled with a single serve portion of a liquid ingredient to be combined with a base liquid for the preparation of a liquid product. Further the system comprises a dispensing apparatus with a pressurized gas source, wherein the apparatus is adapted to bring said pressurized gas source in direct communication with the reservoir of the disposable cartridge so as to allow said liquid ingredient therein to be pressurized by said gas thereby assisting the dispensing thereof from the reservoir via said one or more dispensing passages. The system is adapted to create one or more openings in said portion of the sealing film that covers the reservoir. The dispensing apparatus further comprises a pressurization dome member having a peripheral gas seal adapted to sealingly engage the disposable cartridge around a location where said one or more openings are created in said sealing film and the pressurized gas source is connected to said dome member and is adapted to feed pressurized gas beneath said dome member within the contour of the peripheral gas seal sealingly engaging the disposable cartridge, so as to allow said liquid ingredient in said reservoir to be pressurized by said gas via the one or more openings in said sealing film, thereby assisting the dispensing of the liquid ingredient from the reservoir via said one or more dispensing passages.

A dispenser system includes a first container configured to contain a first fluid, a second container configured to contain a second fluid, a faucet coupled with the first container and the second container via first and second hoses, respectively, and including first and second switches installed on the faucet, and a controller configured to control dispensing of the first and second fluids through the faucet. When the first switch is turned on while the second switch is turned off, the controller dispenses the first fluid to the faucet through the first hose. When the first switch is turned off while the second switch is turned on, the controller dispenses the second fluid to the faucet through the second hose. The dispenser system is configured and dimensioned to prevent cross contamination between the first and second hoses.

A container for food safe liquids for beverage dispensers, includes a first end, or bottom wall, a second end, or neck, equipped with a portion for releasing the water designed to be connected to a corresponding junction portion of a beverage dispenser and a tubular wall extending annularly along its own main central axis between the first end and the second end. The tubular wall extends along the central axis with a succession of ridges and grooves such a way as to be collapsible along the central axis to reduce its overall dimensions, so as to compensate the negative pressure generated inside the container during dispensing of the liquid preventing contact between the liquid and the air outside the container.

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.