Valves for maintaining brake cylinder pressure in freight car brake equipment are provided. A valve includes a first diaphragm defining a first side and a second side, and a second diaphragm defining a first side and a second side. The valve further includes a first port for receiving pressure from one of an emergency reservoir or a control volume, the first port in fluid communication with the first side of the first diaphragm; a second port for receiving pressure from a brake pipe, the second port in fluid communication with the second side of the first diaphragm; and a third port for receiving pressure from a brake cylinder, the third port in fluid communication with the second side of the second diaphragm.

Valves, systems, articles, and methods for controlling fluid flow are generally described. According to some aspects, valves that can move between an open configuration and a closed configuration in response to a change in magnetic field and/or voltage potential are provided. According to certain aspects, valves comprising elastic diaphragms comprising magnetic materials (e.g., an elastic composite material including magnetic nanoparticles or other magnetic materials dispersed in a matrix) and/or electroactive polymers are provided. In some aspects, magnetically actuated systems and/or voltage potential actuated systems comprising elastomeric valves are described. In some embodiments, valves and systems described herein are useful for liquid handling, dosing, and regulation of fluid flow, though embodiments in which the disclosed valves are used in different applications are also contemplated.

An encapsulated valve system includes a first housing portion having a first facing surface, the first facing surface comprising a plurality of branch pathways formed as a recess within the first facing surface. The valve system further includes a second housing portion having a second facing surface, the second facing surface comprising a plurality of branch pathways formed as a recess within the second facing surface. A disposable conduit is configured to be interposed between the first and second housing portions and disposed within the recess of the first facing surface and the recess of the second facing surface. The disposable conduit is thus sandwiched between the first and second facing surfaces. A plurality of pinch valve actuators are mounted on one or both of the first housing portion and the second housing portion, the plurality of pinch valve actuators configured to pinch the disposable conduit at selective branch pathways.

An encapsulated valve system includes a first housing portion having a first facing surface, the first facing surface comprising a plurality of branch pathways formed as a recess within the first facing surface. The valve system further includes a second housing portion having a second facing surface, the second facing surface comprising a plurality of branch pathways formed as a recess within the second facing surface. A disposable conduit is configured to be interposed between the first and second housing portions and disposed within the recess of the first facing surface and the recess of the second facing surface. The disposable conduit is thus sandwiched between the first and second facing surfaces. A plurality of pinch valve actuators are mounted on one or both of the first housing portion and the second housing portion, the plurality of pinch valve actuators configured to pinch the disposable conduit at selective branch pathways.

A valve manifold has a housing with a central mixing chamber and a shell surface. The shell surface of the valve manifold has at least two valve ports, with each valve port being associated with one valve. A first valve port has three openings, and additional valve ports each having three openings. A respective first opening of the valve ports is in direct fluid communication with the central mixing chamber, and the second and third openings of the valve ports are each in fluid communication with an inflow or outflow via a duct. A bottom of the mixing chamber, in relation to a plane arranged perpendicularly to a vertical longitudinal axis of the housing, has a slope towards the first opening of the first.

The subject matter of this specification can be embodied in, among other things, a check valve that includes a valve body having a bore and a seat along the bore, a fluid inlet at a first end of the bore, and a fluid outlet a second end of the bore, a stopper selectively movable along the bore to contact the seat, the bore being occluded when the stopper is in contact with the seat, a first bias member on a first side of the stopper within the bore, the first bias member providing a first bias force upon the stopper in a first direction, and a second bias member on a second side of the stopper within the bore, the second side being opposite the first side, the second bias member providing a second bias force upon the stopper in a second direction opposite the first direction.

A valve comprises a chamber, a diaphragm and a detector. The diaphragm moves inside the chamber. The chamber is blocked when the diaphragm is driven to reach a bottom of the chamber. The detector is installed above the diaphragm to detect a leakage, and the detector is connected to outside.

A valve comprises a chamber, a diaphragm and a detector. The diaphragm moves inside the chamber. The chamber is blocked when the diaphragm is driven to reach a bottom of the chamber. The detector is installed above the diaphragm to detect a leakage, and the detector is connected to outside.

A passive dual modulating regulator with relative differential venting (regulator) for use with a contained hydrogen generation system (system) comprises a flexible diaphragm clamped between a first housing section and a second housing section. The regulator defines a hydrogen fluid path in fluid communication with the hydrogen-side of the system, an exterior hydrogen storage vessel, and an exterior of the system. The regulator also defines an oxygen fluid path in fluid communication with the oxygen-side of the system, an exterior oxygen storage vessel, and an exterior of the system. The regulator regulates pressure imbalances between the oxygen-side of the system and the hydrogen-side of the system, and vents oxygen and hydrogen to an exterior of the system to allow collection of both hydrogen and oxygen and avoid rupture of a proton-exchange membrane of the system.

A valve comprises a chamber, a diaphragm and a detector. The diaphragm moves inside the chamber. The chamber is blocked when the diaphragm is driven to reach a bottom of the chamber. The detector is installed above the diaphragm to detect a leakage, and the detector is connected to outside.