A water tap body has a mechanical mixing valve which is operable selectively to allow water to flow only from a first water inlet to a water outlet of the mixing valve, to allow water to flow only from a second water inlet to the water outlet, and to allow a mix of water to flow to the water outlet. The water tap body also has a mechanical selector valve which is operable selectively to allow water to flow only from a first water inlet to a water outlet and to allow water to flow only from a second water inlet to the water outlet of the mechanical selector valve. The water outlet of the mechanical mixing valve is in fluid communication with a first tap body outlet. The water outlet of the mechanical selector valve is in fluid communication with a second tap body outlet.

The present invention provides an adjustable flow regulator for a water mixer that, when in use, is disposed in a fluid path between a mixer cartridge and a mixer outlet of the water mixer, the adjustable flow regulator comprises a regulator body having a fluid inlet in fluid communication with the mixer cartridge to receive mixed water therefrom, and a fluid outlet in fluid communication with the mixer outlet. The regulator body further comprises a control element moveable within the regulator body, wherein the control element is moveable to adjustably restrict the fluid path and thereby flow of mixed water exiting the outlet.

Disclosed is a rotary valve 1 comprising a stator 20 and a rotor 40 generally in rotary sliding engagement with the said stator about a valve axis RA, the stator including a plurality of fluid ports 22, 26, 28, the rotor 40 being operable to selectively fluidically interconnect two or more of said ports during its rotary sliding engagement. The valve further includes an actuator (70) for disengagement of the rotor from the stator to enable efficient cleaning of the valve interconnections.

A rotary multiport greasing valve having an outer sleeve and an inner sleeve within the outer sleeve. The outer sleeve has at least one inlet port and at least 2 outlet ports. The inner sleeve has an inlet port, a central passageway, and an outlet port. The inner sleeves inlet port is fluidly connected to the outer sleeve's inlet port. The inner sleeve rotates within the outer sleeve so that the inner sleeves outlet port is circumferentially aligned with a selected outer sleeve outlet port creating a fluid pathway from the outer sleeve inlet port into the inner sleeve's inlet port through the central passageway through the inner sleeve's outlet port and finally through the outer sleeves outlet port to create an open flowpath. In certain instances, the inner sleeve inlet port is longitudinally shifted so as not to align with any portion of an outlet sleeve outlet port.

A poppet switch valve device includes a valve body, a first valve rod including a first valve member, a second valve rod including a second valve member, and a solenoid. When a jig engages with an engagement portion of the first valve rod and rotates the first valve rod so that an internally-threaded hole formed in the first valve rod engages with and moves forward and backward relative to an external thread formed on an outer circumferential surface of the second valve rod, the first valve rod is moved relative to the second valve rod in the axial direction. The poppet switch valve device further includes a restriction portion configured to restrict movement of the first valve rod relative to the second valve rod in the axial direction after the first valve rod is moved relative to the second valve rod in the axial direction using the jig.

A valve actuation device for actuating a valve, such as a sanitary valve, in an axial actuation movement for a first valve function, illustratively a shut-off function, and in a rotary actuation movement for a second valve function, illustratively a quantity regulation or mixing function, and to a sanitary valve equipped with such a valve actuation device.

The invention relates to a control cartridge for single-lever mixing taps, comprising a housing having a cylindrical housing wall and a base having a borehole for an inlet for cold water and a borehole for an inlet for hot water. Three ceramic disks are situated one above the other on the base, namely, a lower base disk having a borehole for the inlet for hot water and a borehole for the inlet for cold water, a rotatable and displaceable ceramic control disk which rests on the base disk and has a control edge on the circumferential surface, and an upper bearing disk which is sealed off from the housing or the housing wall. In order for mixed water to be dischargeable either laterally or vertically with the same installation space or the same installation height and installation diameter, it is proposed that the base and the base disk each have a mixed water outlet in addition to the two inlets for cold water and hot water. The inlets for hot water and for cold water and the mixed water outlet are situated one above the other in the base and in the base disk. The base is sealed off from the housing wall, and, depending on the requirements, the housing wall has an opening for a lateral mixed water outlet or no opening in the housing wall for a vertical mixed water outlet.

A rotary valve 1 comprising a stator 3 and a rotor 5, wherein the stator comprises a plurality of connection ports (17a-17l) and orifices (19a-19l) and the rotor comprises a plurality of pairs of rotor valve orifices (23a-23h) joined by transfer channels (25a-25d). The rotor is able to be placed in different working positions whereby fluids can be fed to, for example, chromatography columns and/or can be bypassed through or around the valve. The invention also relates to a system comprising two components such as chromatography columns and a rotary valve.

A system for controlling plurality of pistons in a corresponding plurality of actuators comprises a pump, a tank and a cylindrically shaped valve. The cylindrically shaped valve comprises an outer hollow cylinder with a first, a second, a third and a fourth set of holes, and the inner cylinder with a cylindrical base, and having a first and a second set of non-overlapping spiral grooves that are parallel to each other, in that the first set of holes are at different distance from the cylindrical base, the third set of holes maintain one to one correspondence with the first set of holes at 180 degrees opposite, the second set of holes maintain one to one correspondence with the first set of holes at same distance in a straight line, 180 degrees, the fourth set of holes maintain one to one correspondence with the second set of holes, 180 degrees opposite.

A sprayhead includes a body having a first end and a second end opposite the first end. The body includes a fluid inlet proximate the first end and a fluid outlet proximate the second end. The sprayhead includes a first disc fixed to the body, a second disc moveably coupled to the body, and a pin which defines an axis of rotation for the second disc. The second disc is configured to rotate about the axis of rotation and to translate in a radial direction relative to the axis of rotation while the sprayhead is in use. Rotation of the second disc relative to the first disc causes a first response, whereas translation of the second disc relative to the first disc causes a second response.