A liquid dispenser, such as a water purifier, in one embodiment includes a water discharger connector provided with a water discharge valve configured to control discharge of purified water and a water discharge pipe connected to the water discharge valve, and a water discharger coupled to an upper side of the water discharger connector, and provided with a connector part that connects to the water discharge pipe based on fitted-coupling.

A beverage station including a first zone, a second zone, and a third zone. The first zone can be positioned below a countertop. The second zone can be positioned at a level of the countertop. The third zone can be positioned at an overhead level, the third zone comprising at least one reduced temperature zone.

A representative system includes: an exterior housing defining an interior compartment; a water tank disposed within the interior compartment; a filtration system configured to receive a flow of water from outside the exterior housing, filter the flow of water and provide filtered water to the water tank; an ice maker, disposed along a first flow path from the water tank, configured to produce ice from the filtered water provided from the first flow path; an ice bin configured to receive the ice from the ice maker; a user interface configured to receive a user input corresponding to a request for chilled water; a water control valve, disposed along a second flow path from the water tank, configured to receive the filtered water provided from the second flow path and provide a controlled flow of the filtered water to the ice bin in response to the user input such that the controlled flow of the filtered water is cooled by the ice in the ice bin to form chilled water; and a water dispenser fluidly communicating with the ice bin and configured to provide the chilled water outside of the exterior housing according to the user input.

A representative system includes: an exterior housing defining an interior compartment; a water tank disposed within the interior compartment; a filtration system configured to receive a flow of water from outside the exterior housing, filter the flow of water and provide filtered water to the water tank; an ice maker, disposed along a first flow path from the water tank, configured to produce ice from the filtered water provided from the first flow path; an ice bin configured to receive the ice from the ice maker; a user interface configured to receive a user input corresponding to a request for chilled water; a water control valve, disposed along a second flow path from the water tank, configured to receive the filtered water provided from the second flow path and provide a controlled flow of the filtered water to the ice bin in response to the user input such that the controlled flow of the filtered water is cooled by the ice in the ice bin to form chilled water; and a water dispenser fluidly communicating with the ice bin and configured to provide the chilled water outside of the exterior housing according to the user input.

A liquid dispenser includes a case and a dispenser, and dispenser includes a dispenser side cover, a first lifting cover, a second lifting cover, and a dispenser nozzle. The first lifting cover includes a guide rail and the second lifting cover includes a coupling bracket provided with a magnet. As the coupling bracket is slidably moved along the guide rail by the attractive force being applied between the magnet and the guide rail, the second lifting cover is lifted and lowered from the first lifting cover.

A modular beverage-dispensing assembly, as provided herein, may include a housing, a compressed gas tank mounted to the housing, and a plurality of discrete beverage containers, and a multipath gas valve or multipath liquid valve for dispensing a liquid from one or more of the beverage containers.

The disclosure is directed to a beverage nozzle for mixing at least a first beverage ingredient and a second beverage ingredient into a homogeneous mixture. The beverage nozzle comprising a housing comprising a first portion and a second portion and a first inlet in fluid communication with the housing. The first inlet is configured to provide the first beverage ingredient to the housing. The beverage nozzle also includes a second inlet in fluid communication with the housing. The second inlet is configured to provide the second beverage ingredient to the housing. In addition, the beverage nozzle includes a mixing core disposed within the housing. The mixing core is configured to mix the first beverage ingredient and the second beverage ingredient into the homogeneous mixture. Further, the beverage nozzle includes an outlet disposed about the housing, wherein the homogeneous mixture exits the housing by way of the outlet.

An apparatus for the automatic dispensing of beverages by the glass is provided with space-saving container adapted to be installed and implemented so as to allow an optimized occupation of the available spaces.

A post-mix beverage dispenser system with removable pumps is disclosed. The system includes a pump enclosure for receiving a plurality of beverage syrup pumps. Each beverage syrup pump may be easily removed from the enclosure and replaced in a tool-less manner. A sensor and control system for the plurality or removable pumps is also disclosed.

A liquid dispenser includes a case and a dispenser, and dispenser includes a dispenser side cover, a first lifting cover, a second lifting cover, and a dispenser nozzle. The first lifting cover includes a guide rail and the second lifting cover includes a coupling bracket provided with a magnet. As the coupling bracket is slidably moved along the guide rail by the attractive force being applied between the magnet and the guide rail, the second lifting cover is lifted and lowered from the first lifting cover.