A pressure regulating valve comprises a valve housing comprising a pressure-regulating chamber having an inlet for high pressure fluid and an outlet for pressure-regulated fluid, and a valve element received in the pressure-regulating chamber and movable axially therein for regulating the pressure of the fluid passing from the inlet to the outlet. The valve element comprises a regulating element having a regulator head slidably and sealingly received in the valve housing, the regulating element extending into the regulating chamber, at least one spring, and an adjustment head for adjusting an initial compression of the at least one spring within the regulating chamber. The at least one spring is integrally formed with and extends between the regulator head and the adjustment head.

An externally adjustable pressure regulator includes a body having a shoulder, a longitudinal axis and a high pressure inlet. The body has an opening along a side. A bonnet has a regulated pressure outlet and is engaged with the body. A piston is positioned in part in the body and the bonnet. The piston has a shoulder, a longitudinal bore and a transverse bore at about the end thereof in flow communication with the longitudinal bore. A spring is disposed on the piston. A wedging element is positioned in the opening in the body side and is in contact with the spring. An adjusting ring engages the wedging element to move it into the spring to increase compression of the spring and off of the spring to decrease compression. Increasing compression of the spring increases a spring force of the spring on the piston and decreasing compression of the spring decreases the spring force on the piston.

A pressure compensator, particularly for oleodynamic applications, comprising two cylinders: a compensator cylinder in which is slidingly engaged a first piston comprising a first piston rod, and a reducing cylinder, in which is slidingly engaged a second piston comprising a second piston rod axially connected to the first piston rod; said compensator cylinder being coupled to a main oleodynamic cylinder; said compensator cylinder having a size so designed as to provide the same area ratio as that of the main cylinder, thereby to a set position of said main cylinder piston corresponding a precise position of the first piston of the compensator cylinder; said reducing cylinder comprising at least a low-pressure chamber coupled to a pressure gauge; a displacement of the reducing cylinder piston rod either increases or decreases a pressure in said low-pressure chamber, proportionately to a working pressure in the main cylinder.

An air pressure controller having an inlet and an outlet, the controller may be configured to reduce air pressure between the inlet and the outlet and includes an exhaust port configured to exhaust air if a pressure at the outlet rises above a predetermined level.

An arrangement for managing a liquid medium, such as water, combines a pressure-reducing valve with two backflow prevention valves. Both the pressure-reducing valve and the two backflow prevention valves may be integrated into a common housing, specifically with both backflow prevention valves in an inlet chamber of the housing, wherein the inlet chamber and an outlet chamber of the housing are either fluidly coupled or isolated from one another by the pressure-reducing valve depending on the outlet chamber pressure prevailing in the outlet chamber. In some instances, a manually actuatable shut-off valve may be integrated into the housing. The manually actuatable shut-off valve may selectively keep the pressure-reducing valve in a closed position or allow the automatic opening and closing of the pressure-reducing valve depending on the outlet chamber pressure prevailing in the outlet chamber.

An arrangement for managing a liquid medium, such as water, combines a pressure-reducing valve with two backflow prevention valves. Both the pressure-reducing valve and the two backflow prevention valves may be integrated into a common housing, specifically with both backflow prevention valves in an inlet chamber of the housing, wherein the inlet chamber and an outlet chamber of the housing are either fluidly coupled or isolated from one another by the pressure-reducing valve depending on the outlet chamber pressure prevailing in the outlet chamber. In some instances, a manually actuatable shut-off valve may be integrated into the housing. The manually actuatable shut-off valve may selectively keep the pressure-reducing valve in a closed position or allow the automatic opening and closing of the pressure-reducing valve depending on the outlet chamber pressure prevailing in the outlet chamber.

Fluid regulators are described. An example fluid regulator described herein includes a regulator body defining a sensing chamber between an inlet and an outlet, a bonnet coupled to the regulator body, the bonnet defining a loading chamber, the loading chamber being fluidly isolated from the sensing chamber and an environment surrounding the fluid regulator, a guide disposed between the sensing chamber and the loading chamber, the guide defining a vent flow path, the vent flow path to enable the sensing chamber to vent to the environment during a failure condition of the fluid regulator, a transverse bore defined between an interior surface of the regulator body and an exterior surface of the regulator body, the transverse bore being aligned with the vent flow path to enable fluid communication between the transverse bore, the vent flow path, and the environment surrounding the fluid regulator, the exterior surface of the regulator body defining a groove that is partially defined by the transverse bore, and a filter to be disposed in the groove to cover an outlet of the transverse bore.

Fluid regulators are described. An example fluid regulator described herein includes a regulator body defining a sensing chamber between an inlet and an outlet, a bonnet coupled to the regulator body, the bonnet defining a loading chamber, the loading chamber being fluidly isolated from the sensing chamber and an environment surrounding the fluid regulator, a guide disposed between the sensing chamber and the loading chamber, the guide defining a vent flow path, the vent flow path to enable the sensing chamber to vent to the environment during a failure condition of the fluid regulator, a transverse bore defined between an interior surface of the regulator body and an exterior surface of the regulator body, the transverse bore being aligned with the vent flow path to enable fluid communication between the transverse bore, the vent flow path, and the environment surrounding the fluid regulator, the exterior surface of the regulator body defining a groove that is partially defined by the transverse bore, and a filter to be disposed in the groove to cover an outlet of the transverse bore.

A pressure regulator for a hydrogen storage system, wherein the pressure regulator is adapted to operate at temperatures below −50° C., while minimizing the need for separate sealing elements and O-rings. The pressure regulator includes a main body including an inner cavity bounded by an interior wall, a piston disposed in the inner cavity, the piston including a first channel disposed adjacent a first portion, wherein the first portion is adapted to cooperate with the interior wall to form a seal between the piston and the interior wall, a first biasing device disposed in the first channel, wherein the first biasing device is adapted to exert a force on the first portion of the piston to form a seal between the first portion and the interior wall, and an end cap coupled to the main body thereby enclosing the piston to form an outlet pressure chamber.

The invention relates to a device for regulating the flow rate and/or pressure of a fluid, such as valve for a pressure gas cylinder, comprising a reducing valve including a first plug designed to be moved in the normal flow direction of the fluid during closure. The reducing valve also comprises a plunger to which the plug is coupled. The face of the plunger that is oriented towards the first plug defines a regulation chamber together with the body. The aforementioned face also comprises a seal that engages with a corresponding surface of the body such as to form a second plug for maintaining residual pressure. The regulation device also comprises a means for preloading and releasing a spring acting on the opposite face of the plunger.