A fluid integrating system (10) includes an integrating manifold (30) having two or more input fluid inlets (132) disposed at oblique angles relative to a center axis of the integrating manifold (30). The two or more input fluid inlets (132) intersect in the integrating manifold (30) to define an integrating chamber (112). The fluid integrating system also includes a pressure sensor (110) fluidly connected to the integrating chamber (112) that is operable to send a pressure signal indicative of the pressure of the fluid in the integrating chamber (112). A integrating controller (22) is operatively coupled to the two or more valves (60) and to the pressure sensor (110) and is operable to selectively control the flow of input fluids into the integrating chamber (112) by actuating the two or more valves (60) based on the pressure signal received from the pressure sensor (110).

Among other things, beverages are dispensed from one or more beverage dispensers based on selections made by users. Information about the dispensing of the beverages is sent to a central server where it is used to manage a variety of functions including replacement of depleted supplies of components. Various features of the beverage dispensers enable the beverages that are dispensed to be uniform and appealing to users.

Examples disclosed herein relate to a dispensing device including a syrup unit which transmits via one or more orifices one or more syrups and water to a dispensing block, a syrup source coupled to the syrup unit which provides the one or more syrups to the syrup unit, a water source which provides water to the syrup unit, and a cf valve coupled to a first orifice upstream of a solenoid valve where the cf valve provides a first range of pressures to the solenoid valve and where the first orifice is coupled to the dispensing block.

A beverage dispenser includes a source of a base fluid, a source of a concentrate, and an assembly configured to receive and dispense the base fluid and the concentrate together as a mixed beverage having a predetermined base fluid-to-concentrate ratio. An actuator is configured to control flow of the base fluid and the concentrate to the assembly. The assembly is configured to premix a first portion of the base fluid with the concentrate to form a premixed concentrate, and to then dispense a combination of the premixed concentrate and a second portion of the base fluid as the mixed beverage having the predetermined base fluid-to-concentrate ratio. The actuation of the actuator causes an uninterrupted dispense of the base fluid and the concentrate from the source of the base fluid and the source of the concentrate, respectively, to the assembly, and from the assembly to a consumer of the mixed beverage.

A water purifier includes a cooling water tank, a partition member mounted inside the cooling water tank and partitioning an inner space of the cooling water tank into an upper space and a lower space, a cold water pipe accommodated in the lower space; an evaporator accommodated in the upper space, and an agitator penetrating the partition member and disposed in the lower space. The partition member includes a bottom portion on which the evaporator is mounted and that defines a plurality of cooling water through-holes, and an outer wall portion extending upward along an edge of the bottom portion to define an evaporator accommodating portion. The outer wall portion is spaced apart from an inner wall of the cooling water tank to prevent ice formed in the evaporator accommodating portion from contacting the inner wall of the cooling water tank.

The present invention relates to a beverage making machine comprising a first beverage making cartridge comprising at least one of a gas source portion, the gas source portion contains a solid gas source that through sublimation emits a gas, and a gas storage tank arranged to store the gas emitted from the solid gas source. The beverage making machine further comprising a second beverage making cartridge comprising at least one of a micro ingredient, a beverage diluent receptacle for receiving a beverage diluent liquid, a dissolver dissolves portion of the gas, from the gas storage tank, into the beverage diluent liquid, and a dispenser selectively dispenses a predefined ratio of at least one of the micro ingredient and the beverage diluent liquid, to form a beverage. Exemplary embodiments include a computer control arranged to receive a beverage selection from a consumer and control the beverage making machine to form beverages.

A beverage dispenser includes a gas infusion device configured to infuse a gas into a base liquid to form a gas-infused liquid, a mixing chamber configured to mix the gas-infused liquid and a concentrate to thereby form a reconstituted beverage, a first flow control configured to decrease pressure of the gas-infused liquid prior to mixing with the concentrate, and a second flow control configured to decrease pressure of the concentrate prior to mixing with the gas-infused liquid. A restrictor device downstream from the mixing chamber and configured to apply backpressure on the concentrate and the gas-infused liquid, and a dispensing valve is configured to dispense the reconstituted beverage.

Examples disclosed herein relate to a dispensing device including a syrup unit which transmits via one or more orifices one or more syrups and water to a dispensing block, a syrup source coupled to the syrup unit which provides the one or more syrups to the syrup unit, a water source which provides water to the syrup unit, and a cf valve coupled to a first orifice upstream of a solenoid valve where the cf valve provides a first range of pressures to the solenoid valve and where the first orifice is coupled to the dispensing block.

A beverage dispenser includes a gas infusion device configured to infuse a gas into a base liquid to form a gas-infused liquid, a mixing chamber configured to mix the gas-infused liquid and a concentrate to thereby form a reconstituted beverage, a first flow control configured to decrease pressure of the gas-infused liquid prior to mixing with the concentrate, and a second flow control configured to decrease pressure of the concentrate prior to mixing with the gas-infused liquid. A restrictor device downstream from the mixing chamber and configured to apply backpressure on the concentrate and the gas-infused liquid, and a dispensing valve is configured to dispense the reconstituted beverage.

A beverage dispenser has a diluent manifold that dispensing a first diluent, a second diluent, or a mixed diluent to a beverage dispensing valve that receives and dispense the first diluent, the second diluent, or the mixed diluent with a concentrate from a concentrate source. The diluent manifold has a first inlet configured to receive the first diluent, a second inlet configured to receive the second diluent and an outlet that dispenses the first diluent, the second diluent, or a mixed diluent comprising the first diluent and the second diluent. A flow control spool is included that selectively permits the first diluent, the second diluent, or both the first diluent and the second diluent to convey through the diluent manifold such that the first diluent, the second diluent, or the mixed diluent dispenses from the outlet.