The invention concerns a device for extra-corporal blood treatment, including an extra-corporal blood circulation for the pumping of blood, where individual components of the extra-corporal blood circulation are inside and outside of a casing of the device, and a base socket is attached below the casing, which includes a collection trough in which liquids leaking inside the casing can be collected. The device has a sensor with which the presence of liquid within the collection trough is measurable. The device includes receptacle resources for the reception of leaking liquids occurring outside of the casing, where the receptacle resources are developed so that, above a specified quantity, they route leaking liquids into the collection trough.

A faucet includes a spout; a sprayhead that is moveable relative to the spout between a docked position and an undocked position; a magnet associated with the spout and having a bore; and a magnetically responsive collar associated with the sprayhead and moveable relative to the magnet in an axial direction as the sprayhead moves between the docked and undocked positions. In the docked position, magnetic forces between the magnet and the collar attract a center of the collar to align with a center of the magnet in the axial direction with the collar in the bore of the magnet.

Valve actuators include a control system and at least one human-machine interface device. Human-machine interface devices include at least one wireless input device operable by a user and at least one sensor configured to sense a force applied to the at least one wireless input device by the user. Valve systems may include such valve actuators. Methods of operating a control system of a valve actuator include sensing a force applied to at least one wireless input device and wirelessly transmitting an electronic signal in response to the applied force.

An automatic shut-off device, comprising a housing member with a hollow opening, an inlet port coupled to a first end of the housing member, an outlet port coupled to a second end of the housing member, a valve coupled to the outlet port, a variable volume chamber within the housing member with an open end facing the inlet port of the housing member and a closed end with flow restriction holes in closed end facing the outlet port of the housing member, a one-way valve disposed in the closed end of the variable volume chamber, and a spring-biased piston within the variable volume chamber with a compressible spring coupled to the piston at the closed end of the chamber wherein the piston is mechanically coupled to the valve.

A system and method of Touch Free Automatic faucet controlled by electronic sensors provides a Primary-Water-Flow-Mode, a Continue-Water-Flow-Mode, a Temperature-Control-Mode, a Faucet-Pause-Mode, an Adjust-Water-Flow-Mode and a Flow-Temperature-Default-Setting-Mode for users to control faucet water flow and water temperature without touching any parts of faucet body. The system comprises at least three electronic sensors, a logical processor circuit board, an electricity power supply package, a water flow control valve assembly, a temperature control valve assembly, at least one faucet body housing and at least one inlet fluid line. From the outputs of the sensors, the logical processor responds to the flow control valve assembly and to the temperature control valve assembly to control water flow and temperature to the faucet spout.

A fluid flow control system having a fluid inlet configured to be operatively coupled to a fluid source, a fluid outlet in fluid communication with the fluid inlet such that fluid may exit the system therethrough, a proximity sensor for detecting the position of an object within a region adjacent the sensor, and a flow control device configured to regulate fluid flow between the inlet and outlet in response to object detection by the sensor, wherein the flow control device varies the fluid flow proportional to the detected distance of an object from the sensor. A water flow control system for use in a shower environment is also provided, as well as a shower control system, methods for controlling water flow based on sensing of the presence and location of an object, and methods for reducing water consumption.

A power operated valve for controlling fluid flow is provided with a fail-safe device responsive to failure of the power supply to the valve to shut-off fluid flow. A valve member is coupled to linear actuator for movement towards and away from a closed position for controlling fluid flow through the valve. The linear actuator is held in a control position by the fail-safe device for normal operation of the valve with the power supply on. The fail-safe device responds to failure of the power supply to release the linear actuator. When the linear actuator is released, energy stored n a spring while the linear actuator was held in the control position is released and biases the linear actuator away from the control position causing the valve member to move to the closed position to shut-off fluid flow.

An intelligent control faucet includes a faucet that includes a manual operation valve, an intelligent control module, a water egress tube, a cold water ingress tube, a hot water ingress tube, and a magnetic reed detection device. The water egress tube, the cold water ingress tube, and the hot water ingress tube are connected to the manual operation valve. The intelligent control module is connected, in a series manner, to the water egress tube. The magnetic reed detection device is mounted to the water egress tube and is connected through a feeding cable or directly to the intelligent control module. Water flow can be established or cut off through pulling the water egress tube so that the use is made easy.

An automatic faucet includes a housing constructed to receive at least one water inlet conduit and having a spout for delivering water. The automatic faucet includes a valve module, a sensor module, a battery module, a turbine module, and a control module. The valve module includes a valve controlled by an electromagnetic actuator for controlling the water flow from the spout. The sensor module is constructed to provide sensor data influenced by a user. The control module is constructed to control opening and closing of the valve by providing signals to the electromagnetic actuator. The control module is also constructed to receive sensor data from the sensor module and execute a sensing algorithm. The control module is also constructed to execute a power management algorithm for managing electrical power generated by the water turbine and provided to and from the battery.

A fluid flow control system having a fluid inlet configured to be operatively coupled to a fluid source, a fluid outlet in fluid communication with the fluid inlet such that fluid may exit the system therethrough, a proximity sensor for detecting the position of an object within a region adjacent the sensor, and a flow control device configured to regulate fluid flow between the inlet and outlet in response to object detection by the sensor, wherein the flow control device varies the fluid flow proportional to the detected distance of an object from the sensor. A water flow control system for use in a shower environment is also provided, as well as a shower control system, methods for controlling water flow based on sensing of the presence and location of an object, and methods for reducing water consumption.