A hydraulic valve is disclosed comprising a venting passage for allowing fluidic communication between an interior and an exterior of the hydraulic valve, the venting passage having a first portion following a first path extending in a first plane, and a second portion following a second path extending in a second plane, wherein the first plane is at an angle to the second plane, and wherein the first and/or second path is a labyrinth path in its respective plane.

The invention provides a water purification and dispensing system, preferably for producing ultrapure water and offering the purified water at one or more dispensing sites in a desired volume. The water purification and dispensing system comprises a (closed) water recirculation loop including a water inlet for introducing water to be purified, pumping means for pumping water through said water recirculation loop in a flow direction, water purification means for purifying water downstream of said water inlet, a dispensing portion of the water recirculation loop including one or more outlet(s) for purified water branched from said water recirculation loop downstream of said water purification means, a first valve arranged between each outlet and said water recirculation loop, for controlled dispensing of the purified water from said recirculation loop through the respective outlet, a second valve arranged in said dispensing portion of the water recirculation loop downstream of said first valve(s) and upstream of said pumping means, a bypass passage branched from said water recirculation loop and bypassing said dispensing portion of the water recirculation loop including said first valve(s) and said second valve, and a third valve for controlling the flow rate through said bypass passage.

A fluid distributor valve (1) for repartitioning an inlet fluid stream (Z) into two outlet fluid streams (X, Y), comprising an inlet port (10), two outlet ports (11, 12), a first and a second valve mechanism (13, 14), one arranged upstream each outlet port (11, 12), wherein each valve mechanism (13, 14) comprises a valve body (15, 16) slidable in a cylindrical valve bore (17) in reciprocating strokes through a valve shaft (18), wherein the valve body (15, 16) includes a first portion (15a, 16a) that is formed with a progressively changing diameter so as to reduce a valve gap between the valve bore inner peripheral wall and the valve body outer peripheral wall at a plane (A, B) perpendicular to the stroke direction, in a regular operating range of the valve mechanism (13, 14), from a maximum valve gap to a minimum valve gap, to reduce or increase the flow rate through the gap towards the associated outlet port (11, 12) upon the relative movement, and wherein at least one of the valve bodies (15, 16) of the valve mechanisms (13, 14), preferably both, is/are formed such that the minimum valve gap is maintained at the end position of the stroke of the valve body (15, 16) in the regular operating range.

A fluid actuation system controls fluid flow between a container and the external environment. The fluid actuation system has an actuator housing which houses a cradle member secured to the actuator housing. An actuator member is slidably received within the cradle member with the actuator member having an actuator member flow conduit for communication fluid flow from the container to and external environment. A toggle latch member is moveable to a first position for continuous fluidic transfer, to a second position for manual control of the fluidic flow, or a third position when fluidic flow is blocked.

A fluid actuation system controls fluid flow between a container and the external environment. The fluid actuation system has an actuator housing which houses a cradle member secured to the actuator housing. An actuator member is slidably received within the cradle member with the actuator member having an actuator member flow conduit for communication fluid flow from the container to and external environment. A toggle latch member is moveable to a first position for continuous fluidic transfer, to a second position for manual control of the fluidic flow, or a third position when fluidic flow is blocked.

A fluid actuation system controls fluid flow between a container and the external environment. The fluid actuation system has an actuator housing which houses a cradle member secured to the actuator housing. An actuator member is slidably received within the cradle member with the actuator member having an actuator member flow conduit for communication fluid flow from the container to and external environment. A toggle latch member is moveable to a first position for continuous fluidic transfer, to a second position for manual control of the fluidic flow, or a third position when fluidic flow is blocked.

A fluid actuation system controls fluid flow between a container and the external environment. The fluid actuation system has an actuator housing which houses a cradle member secured to the actuator housing. An actuator member is slidably received within the cradle member with the actuator member having an actuator member flow conduit for communication fluid flow from the container to and external environment. A toggle latch member is moveable to a first position for continuous fluidic transfer, to a second position for manual control of the fluidic flow, or a third position when fluidic flow is blocked.

A drip emitter has a flexible membrane for regulating a flow of liquid exiting the emitter. The membrane, in a non-stressed or non-flexed state into a regulating chamber of the emitter, includes a non-planar portion.

Valve trim apparatus for use with fluid valves are disclosed. An example valve trim apparatus includes a cage to be positioned in a fluid flow passageway of a valve body. The cage has a cage body defining a first end and a second end opposite the first end. The cage has an opening extending through the body between the first end and the second end. A valve seat is positioned in the opening of the cage body between the first end and the second end of the cage body. The valve trim apparatus is to allow fluid flow between the inlet and the outlet when the fluid valve is in a closed position.

Valve trim apparatus for use with fluid valves are disclosed. An example valve trim apparatus includes a cage to be positioned in a fluid flow passageway of a valve body. The cage has a cage body defining a first end and a second end opposite the first end. The cage has an opening extending through the body between the first end and the second end. A valve seat is positioned in the opening of the cage body between the first end and the second end of the cage body. The valve trim apparatus is to allow fluid flow between the inlet and the outlet when the fluid valve is in a closed position.