A programmable sink valve system for controlling water flow into a sink is provided. The programmable sink valve system includes a housing including a main inlet and a main outlet, wherein the main inlet is connected to a water source; a valve assembly including a valve, wherein the valve assembly includes a valve inlet connected to the main inlet and a valve outlet connected to the main outlet; a flow sensor positioned on one of the valve assembly and the main outlet to monitor flow data; a controller connected to the valve of the valve assembly and the flow sensor; a timer configured to provide time data to the controller; and a memory. The controller receives the flow data from the flow sensor, receives the time data from the timer, and actuates the valve of the valve assembly in response to the flow data or the time data.

An apparatus for dispensing liquid comprising: a base structure having a liquid inlet configured to receive a liquid from a liquid source, a gas inlet configured to receive gas from a gas source, a dispensing outlet connected to a liquid dispensing unit, a storage connecting portion connected to a liquid storage, and a passage arrangement configured to put at least two of the liquid inlet, the gas inlet, the dispensing outlet and the storage connecting portion into fluid communication with each other. The apparatus further comprises a valve arrangement seated in the base structure and configured to control fluid passage of the liquid inlet, the gas inlet, the dispensing outlet, and/or the storage connecting portion. The apparatus further comprises a control unit having at least one signal input configured to be connected to a user interface, and at least one signal output configured to control the valve arrangement.

An apparatus for dispensing liquid comprising: a base structure having a liquid inlet configured to receive a liquid from a liquid source, a gas inlet configured to receive gas from a gas source, a dispensing outlet connected to a liquid dispensing unit, a storage connecting portion connected to a liquid storage, and a passage arrangement configured to put at least two of the liquid inlet, the gas inlet, the dispensing outlet and the storage connecting portion into fluid communication with each other. The apparatus further comprises a valve arrangement seated in the base structure and configured to control fluid passage of the liquid inlet, the gas inlet, the dispensing outlet, and/or the storage connecting portion. The apparatus further comprises a control unit having at least one signal input configured to be connected to a user interface, and at least one signal output configured to control the valve arrangement.

A shower caddy includes a 4-way diverter for attachment to a shower arm and to divert water received from the shower arm to a circuit of pipes within the shower caddy. The shower caddy further includes a heating circuit within a basin. The basin holds bathing fluids, and the heating circuit transfers heat from water traveling via the circuit of pipes to the bathing fluids within the basin. The shower caddy further includes an additive infuser attached to the circuit of pipes that infuses an additive into the water flowing through the circuit of pipes when the additive infuser is activated by a user. The circuit of pipes is further connected to a showerhead that outputs the water received from the shower arm following it being used for the heating circuit and/or having an additive infused therein.

A shower caddy includes a 4-way diverter for attachment to a shower arm and to divert water received from the shower arm to a circuit of pipes within the shower caddy. The shower caddy further includes a heating circuit within a basin. The basin holds bathing fluids, and the heating circuit transfers heat from water traveling via the circuit of pipes to the bathing fluids within the basin. The shower caddy further includes an additive infuser attached to the circuit of pipes that infuses an additive into the water flowing through the circuit of pipes when the additive infuser is activated by a user. The circuit of pipes is further connected to a showerhead that outputs the water received from the shower arm following it being used for the heating circuit and/or having an additive infused therein.

A pressure compensation and mixing device includes: a mixing unit configured to mix a fluid guided in the mixing unit; and a pressure compensation unit configured to restrict pressure rising in the fluid. The mixing and pressure compensation units are integrated in a container unit. The mixing unit has a mixing volume. The pressure compensation unit has a pressure compensation volume. The mixing and pressure compensation volumes adjoin each other and are separated from each other at least partially by a common separating wall. The pressure compensation unit is arranged inside the mixing unit. The mixing unit includes: an inlet tangentially arranged on the mixing volume such that a fluid let in through the inlet flows in tangentially into the mixing volume; and an outlet axially arranged on the mixing volume such that a fluid let out through the outlet flows out of the mixing volume axially.

A pressure compensation and mixing device includes: a mixing unit configured to mix a fluid guided in the mixing unit; and a pressure compensation unit configured to restrict pressure rising in the fluid. The mixing and pressure compensation units are integrated in a container unit. The mixing unit has a mixing volume. The pressure compensation unit has a pressure compensation volume. The mixing and pressure compensation volumes adjoin each other and are separated from each other at least partially by a common separating wall. The pressure compensation unit is arranged inside the mixing unit. The mixing unit includes: an inlet tangentially arranged on the mixing volume such that a fluid let in through the inlet flows in tangentially into the mixing volume; and an outlet axially arranged on the mixing volume such that a fluid let out through the outlet flows out of the mixing volume axially.

A mixing valve that includes a housing having a first outlet, a second outlet, and a mixing chamber; a first flow control valve for controlling flow through the first outlet to the mixing chamber; and a second flow control valve for controlling flow through the second outlet to the mixing chamber; wherein the housing has a length dimension, a width dimension, and a thickness dimension, and the largest of these dimensions is no more than approximately 65 millimeters.

A mixing valve that includes a housing having a first outlet, a second outlet, and a mixing chamber; a first flow control valve for controlling flow through the first outlet to the mixing chamber; and a second flow control valve for controlling flow through the second outlet to the mixing chamber; wherein the housing has a length dimension, a width dimension, and a thickness dimension, and the largest of these dimensions is no more than approximately 65 millimeters.

A water dispenser assembly for a hand washing station includes a water heater having a water tank and a heating element configured to heat water contained in the water tank, the water tank having an inlet conduit connected to a water source and an outlet conduit, a water outlet connected to the outlet conduit and configured to receive water from the water heater through the outlet conduit, and a valve in fluid communication with the water heater and configured to selectively permit the water to be forced from the water tank and through the water outlet to dispense the water. The hand washing station may include a computer device configured for controlling components of the station.