A water output control method and a water output apparatus for implementing the same. The method includes the following steps: connecting and pouring purified water, hot water, and room temperature water respectively into three water input ports of a control valve core; obtaining the purified water and mixed water output respectively from two separate water output ports of the control valve core, connection and communication of the water input port and the water output port is realized through the control valve core; and connecting the two water output ports of the control valve core respectively to two water input ports of a water output device, such that the two separate water output ports of the water output device output the purified water, and the mixed water respectively. The water output apparatus is simple in structure, novel in design, and easy to control.

A faucet with two outlets includes a main body, an outlet pipe, a hot water inlet conduit, a cold water inlet conduit, a cold water conduit, a filtered water conduit and a switch member. The outlet pipe has an inner channel and an outer channel. Filtered water flows through the inner channel, running water flows through the outer channel. The switch member laterally formed a peripheral wall of the main body, and having a valve core being mounted inside the main body. The valve core has control filtered water or running water outlet from the outlet pipe. The faucet with two outlets respectively outputs filtered water and running water through two different waterways in the outlet pipe and ensures simple structure, convenient operation and multiple water output modes.

The present disclosure provides a system for recovering and reusing graywater generated from at least one graywater source in a building. The system includes a controller configured to control recovery and reuse of the graywater; a graywater recovery device communicably coupled to the controller and configured to recover the graywater from the graywater source of the building; and a graywater distributor communicably coupled to the controller, connected to the graywater recovery device, and configured to distribute the recovered graywater to at least one target position in the building for reuse, wherein the controller controls the graywater recovery device to deliver the graywater to the graywater distributor according to a control signal sent by a user, and the controller controls the graywater distributor to deliver the graywater to a target position designated by the user for reuse according to a control signal sent by the user.

A sanitary equipment with a water supply system, a water route system, and a hand washing table are provided. The sanitary equipment includes a machine having a machine water outlet; a movable hand washing table pivoted on the machine and located below the machine water outlet, the movable hand washing table being capable of opening or retracting with respect to the machine; and a water route system disposed in the machine and connected to the machine water outlet to discharge potable water and non-potable water from the machine water outlet.

Water disinfecting modules, water supply systems, methods of assembling a water supply system as well as method of disinfecting water are provided. The water disinfecting module includes a frame, hot and cold water flow switches and hot and cold UV treatment modules is provided. The frame supports a hot and cold water inlets and hot and cold water outlets. Hot and cold water flow switches are fluidly interposed between the respective inlets and outlets for sensing water flow. Hot and cold water UV treatment modules are fluidly interposed between corresponding inlets and outlets and are coupled to flow switches for activation upon sensing of water flow. All of the components are supported by the frame to form a complete unit. The systems and methods incorporate the use of such a water disinfecting module.

Disclosed is a prefabricated module including, in one piece: a shower compartment, with a shower; a toilet compartment, with a toilet seat, the shower compartment and the toilet compartment being arranged longitudinally opposite one another; a kitchen compartment, which included a sink and a cooking appliance; a technical compartment, which included: a domestic water supply and a water heater, supplying domestic water to the shower and sink; an energy supply, supplying energy to the cooking appliance and the water heater; the kitchen compartment and the technical compartment being arranged between the shower compartment and the toilet compartment, which are transversely opposite one another, of the prefabricated module.

A sink system is provided. The sink system is configured for coupling within a recessed cabinet space. The sink system includes a cabinet module and a sink module coupled to an upper end of the cabinet module. The sink module includes a sink basin and a faucet. The sink system further includes a water delivery system configured to receive a flow of water from a utility line and selectively provide the flow of water to the sink module based on a control signal received from a controller. The controller may be a wired or wireless puck that is positioned near the sink basin. The water delivery system may further include a water filtration system, and the digital control valve may provide the flow of water to the water filtration system before the flow of water is provided to the sink module.

Disclosed are a container bottle joint and a container bottle assembly. The container bottle joint includes: a cover body comprising a water inlet pipeline and a water outlet pipeline extending upper and lower direction; a water inlet valve including a first spool, a first elastic member and a first sealing member, in particular the first spool is slidably arranged in the water inlet pipeline from top to bottom, and an upper end of the first spool is connected with the first sealing member; the first elastic member is arranged in the water inlet pipeline, and an upper end of the first elastic member is elastically pressed against a lower end of the first sealing member to elastically squeeze the first sealing member to move upward; and a water outlet valve including a second spool, a second elastic member and a second sealing member.

Disclosed herein is a bifurcated beverage preparation system for use with beverage capsules having frustoconical side walls, first and second sealed ends for containing a predetermined volume of a flavoring agent, a beverage preparation head including a housing having a liquid inlet and a beverage delivery spout, a retractable holder for positioning a beverage capsule along a liquid flow path extending between the liquid inlet and the beverage delivery spout, a hydraulically operated plunger for engaging and puncturing the beverage capsule when positioned along the liquid flow path, thereby exposing the flavoring agent contained therein, and a hydraulic operating unit mounted remotely from the housing and the faucet spout, operative to supply a liquid at a predetermined temperature and under a predetermined pressure to the liquid, thereby causing a flow of the liquid along the flow path through the beverage capsule, thereby delivering an outflow of a flavored beverage.

A water use management system may be installed in a setting that contains a primary infrastructure for water use to provide an alternate, modular infrastructure for water use. Fresh water used at various points of use, such as a shower or sink, may be diverted into the modular infrastructure prior to draining into the primary infrastructure. Once diverted, the precedent use water is received at a reservoir system where it is treated for a subsequent use. Treatment may include filtration and/or chemical treatment, and may be based upon sensor feedback from the reservoir system. Once treated, the water is ready for subsequent use and may flow from the reservoir system, via the modular infrastructure, to a subsequent point of use, such as a toilet.