Gas regulating means (22), to regulate the flow of gas so as to achieve a desired pressure set by a user, is provided. The gas regulating means (22) is located within a gas flow path between a gas inlet and a gas outlet, characterised in that the gas regulating means (22) comprises an encapsulated valve (24; 410) with a lever (26; 426) that can be actuated by a proximate movable piston arrangement (20). In an embodiment, the encapsulated valve (24, 410) of the gas regulating means (22) comprises a valve body (50; 412) having an inlet side (52; 416) and an outlet side (54; 420), the lever (26; 426) being pivotally fitted at the outlet side (54; 420) with a pivot pin (56; 430), the lever (26; 426) having an actuating cam (66; 432), proximate the pivot pin (56; 430). The encapsulated valve (24, 410) of the gas regulating means (22) comprises a capsule valve pin (68; 434) for abutting against the actuating cam (66; 432) of the lever (26; 426).

A pressure regulating module for regulating the pressure of a first fluid using a reference pressure of a second fluid. A pressure transfer assembly including a piston slidably disposed within a cylinder bore between a control fluid chamber and a reference fluid chamber is dimensioned to provide a predefined radial clearance between at least a portion of the outer side wall and the inner circumferential surface of the housing along a predefined axial length of the main body. The predefined radial clearance and predefined axial length are dimensioned to control the flow rate and amount of fluid along one or more fluid communication passages formed between at least a portion of the piston and the housing inner circumferential surface from one or more high pressure fluid zones to a lower pressure fluid zone which can include a leak and/or weep orifice directing fluid to a drain and/or vent circuit.

A supporting member supporting a valve body includes a supporting member body having a semispherical bottom portion that makes contact with the top face of the valve body and a securing recess that is provided in the center and at a predetermined axial location to adjoin a through hole provided in the valve body, and a securing member including an engaging portion that has a form of a shaft having a predetermined diameter made of an elastic material and protrudes from a proximal end and a securing projection that swells out from a predetermined axial location of the shaft portion to fit into a securing recess provided in a through hole in the supporting member body.

A gas pressure regulator (10) is disclosed, comprising a body (12) fitted with a gas inlet stem (14), at a first end of the body (10), for receiving gas from a gas source at a first pressure, and a gas outlet stem or adaptor (16) at a second end of the body (10), for supplying gas at a desired pressure at the gas outlet stem (16). A pressure adjusting mechanism (18) is provided to enable a user to adjust and set the desired pressure, the pressure adjusting mechanism (18) comprising a movable piston arrangement (20). The gas pressure regulator (10) further comprises gas regulating means (22), to regulate gas flowing out of the gas outlet stem (16) to achieve the desired pressure set by the user. The gas regulating means (22) is securely fitted within the body (12) so as to be located within a gas flow path between the gas inlet stem (14) and the gas outlet stem (16), the gas regulating means (22) comprising an encapsulated valve (24) with a lever (26) that can be actuated by the movable piston arrangement (20) of the pressure adjusting mechanism (18).

A pressure-regulating valve having a valve piston (I0) which is subjected to the action of an energy store and which is guided in longitudinally displaceable fashion in a valve housing (12), which valve housing has ports such as a supply port (14), a utility port (16) and a tank port (18), which ports can be actuated, by way of a control part (20) which closes with a sealing action, such that, in the case of a fluidic connection from the supply port to the utility port, a pressure reduction function is realized, and in the case of a fluidic connection from the utility port to the tank port, a pressure-limiting function is realized, characterized in that the control part (20) has a control rod (22) with two control bodies (24, 26) held spaced apart from one another, of which control bodies one (24) controls at least the fluidic connection between supply port (14) and utility port (16), and the other control body (26) controls at least the fluidic connection between utility port (16) and tank port (18).

A pressure regulator includes a housing having an upper housing portion and a lower housing portion, the lower housing portion defining an annular recess and the upper housing portion having a bottom surface, an annular protrusion extending from the bottom surface, a diaphragm disposed between the upper housing portion and the lower housing portion, the diaphragm including an outer lip having a first thickness, a flexible connecting section connected to the outer lip and having a second thickness smaller than the first thickness, and an annular inner section connected to the flexible connecting section, the outer lip having a bottom surface disposed in the annular recess and a top surface, and the protrusion being pressed into the top surface so that the outer lip seals between the upper housing portion and the lower housing portion.

A device for providing an output fluid at a regulated output pressure includes a pressure control unit controlled via a pilot control pressure and a pilot control unit that provides the pilot control pressure. The pressure control unit includes an inlet chamber for an input fluid having an input pressure, an outlet chamber for the output fluid having the regulated output pressure and a first valve unit that acts between the inlet chamber and the outlet chamber. A first diaphragm of the pressure control unit is acted upon by the pilot control pressure. A second diaphragm, which is mechanically coupled to the first diaphragm is acted upon by the output fluid having the output pressure acts. At least the second diaphragm mechanically acts on the first valve unit.

A pressure relief valve for a gas pressure regulator includes: a deformable and gas-tight, laminar element; an outflow channel that allows the passage of the gas between one side and the other of the laminar element including a precisely-sized hole; a shutter removably associated with the laminar element through a coupler that defines, for the shutter, a closed position of the outflow channel and an open position of the outflow channel; an elastic element interposed between the shutter and the laminar element in order to push the shutter towards the closed position. The couple includes a through hole belonging to the laminar element and a shaft slidingly inserted in the through hole, and the shutter is operatively connected to the shaft. The outflow channel is distinct from the through hole, as sealing is provided to prevent the passage of the gas between the through hole and the shaft.

A fixed lever and pin assembly may include a lever body having a front end, a back end, and an arm connecting the front end and the back end. The front end of the lever body may be operatively coupled to a control element of a regulator. The arm may be adapted to operatively couple to an actuator of a regulator. A pin may be fixed to the front end of the lever body and may be disposed through the front end in a direction perpendicular to first and second parallel sides of the lever body. The fixed lever and pin assembly may be an integrated piece and the pin may prevent the lever body from moving independently from the pin.

Gas regulating means (22), to regulate the flow of gas so as to achieve a desired pressure set by a user, is provided. The gas regulating means (22) is located within a gas flow path between a gas inlet and a gas outlet, characterised in that the gas regulating means (22) comprises an encapsulated valve (24; 410) with a lever (26; 426) that can be actuated by a proximate movable piston arrangement (20). In an embodiment, the encapsulated valve (24, 410) of the gas regulating means (22) comprises a valve body (50; 412) having an inlet side (52; 416) and an outlet side (54; 420), the lever (26; 426) being pivotally fitted at the outlet side (54; 420) with a pivot pin (56; 430), the lever (26; 426) having an actuating cam (66; 432), proximate the pivot pin (56; 430). The encapsulated valve (24, 410) of the gas regulating means (22) comprises a capsule valve pin (68; 434) for abutting against the actuating cam (66; 432) of the lever (26; 426).