An aseptic closure system for attaching to a container including an upper section and a lower section that are removably attached to one another. Each section includes a valve housing with a rotary valve mounted in a bore extending through the valve housing. The upper section has an inlet port and an outlet port, each with a conduit providing fluid communication through the port to an interior of the upper valve housing. The lower section is adapted to mount to a container. The lower valve housing includes two conduits that permit fluid communication through the lower valve housing to an interior of the lower section. The rotation of the rotary valves closes off flow through the conduits in the respective housings.

The invention relates to a valve with a variable opening (10) for controlling the flow of a mixture of solids and fluids, such as the mixture present in petroleum processing equipment. The valve comprises: —a tubular pipe (12), —first (14) and second (16) planar plates extending transversally to the pipe (12), one of which is rigidly connected to the pipe (12) and the other is able to pivot. The plates are drilled with a central opening (141, 161) and a plurality of peripheral openings (143, 163) which are arranged circumferentially around the central opening, and at least the form and spacing of which match. Each peripheral opening (143) of the first plate with openings is surrounded by a shaft (145) which is rigidly connected to the first plate with openings and projects from a surface (14a) of said plate, which surface is located on the side opposite the second plate with openings. Said shafts enable redirection of debris falling onto the first plate.

A motor-driven axial-flow control valve is disclosed that has a valve body with an inlet and an opposite outlet and a passage located between having a substantially axial alignment relative to the inlet and outlet, and a flow control path arranged in the passage with an operative connection to a motor drive in a switch housing resting on the valve body. The flow control valve is formed by two radially arranged discs lying on one another and each having at least one passage opening where one disc is a stator disc permanently arranged in the valve body, and the other disc lies axially rotatably on the stator disk, and the rotatable disc is in engagement with an axially rotatable sleeve that is arranged axially in the passage and through which flow can pass in the cavity of the rotatable disc.

A switching valve for an air spring arrangement of a motor vehicle, which switching valve has a valve housing arrangement which, in the installed state, is arranged between a first air volume and a second air volume. A valve closing member arrangement is actuatable by an actuator is provided such that the valve closing member arrangement, in a first position, fluidically connects the first air volume to the second air volume and, in a second position, fluidically separates the first air volume from the second air volume. The valve closing member arrangement is designed as a rotary slide arrangement. A rotary slide member with first openings is provided between two valve closing bodies, wherein, in the first position, the first openings correspond with second openings of the valve closing body such that a fluidic connection can be produced between the first and the second air volume.

A method for expanding a compressed gas (GD) at a gas pressure (pD) with a reciprocating-piston machine, wherein the reciprocating-piston machine includes a piston that can move to and fro and a working chamber delimited by the movable piston. The method being carried out as follows: the compressed gas (GD) is supplied to the working chamber via an actuatable rotary slide valve, wherein the compressed gas (GD) in the working chamber is expanded in the working chamber.

A discrete step, maximum flow-rate-selectable valve includes: (a) an entry tube with: (i) an exit with a single, off-center hole that lies on the circumference of a circle of radius “r” that is centered on the centerpoint of the exit, and (ii) an exterior surface having a portion with rotational symmetry, (b) a selector tube with: (i) an exit with a plurality of holes, each having a differing diameter and a center point that lies on the circumference of a circle of radius “r” which is centered on the centerpoint of the selector tube exit, and (ii) an interior surface configured to lie proximate said entry tube, exterior surface portion having rotational symmetry so as to assist in providing a water-tight seal between said tubes, and (c) a means to enable the selector tube to rotate in discrete steps around the entry tube.

A valve having a flow trim assembly that can be quickly and efficiently removed and repaired or replaced. A body section having a central through bore that defines an inlet, an inner chamber or space, and two selectable outlets. Further the selectable outlets can direct flow in either a 90 degree “angle” orientation or at straight “in-line” orientation. An actuator stem extends into the inner chamber. A first (movable) trim member is attached to the rotator, and can be selectively rotated relative to a second (fixed) trim member. The first and second trim members cooperate to adjust flow opening through the valve. A valve bonnet that allows direct coupling of an actuator to the valve.

PEEP-valves configured to be placed inline with the exhalation path of a ventilator and ahead of the exhalation valve. The PEEP-valve functions as a resistor that can provide a higher PEEP value for any given PIP, lung compliance, and respiratory rate combination compared to a standard PIP to PEEP ratio.

A force setting apparatus comprises a valve manifold forming a plurality of ports and a rotary valve coupled to the valve manifold and rotatable on the valve manifold. The plurality of ports are in fluid communication with a plurality of pistons. The rotary valve is coupled to an air chamber that used to transfer low pressurized oil coming from the pistons and out of the ports. The valve is rotatable to uncover the plurality of ports and allow high pressurized oil to flow through a plurality of pistons and out of the plurality of ports. The valve is rotatable to cover the plurality of ports and allow low pressurized oil to flow through the valve and out of the air chamber.

A valve has flow trim assembly that can be quickly and efficiently removed and repaired or replaced. A body section having a central through bore defines an inlet, an outlet and inner chamber or space. An upstream cap and inlet hub are disposed at the inlet of the body member, while a downstream cap and outlet hub are disposed at the outlet of the body member. An actuator stem extends into the inner chamber, while a gear train can transfer torque force applied to the actuator stem to a rotator. A first (movable) trim member is attached to the rotator and can be selectively rotated relative to a second (fixed) trim member. The first and second trim members cooperate to adjust flow opening through the valve.