A pressure independent control valve (10) for controlling the flow of a liquid medium includes a valve body having a side wall defining a conduit that extends from an inlet to an outlet. The side wall of the valve body include a first side opening (23) and a second side opening (24) extending into the conduit. A first insert element (21) is placed into the first side opening (23) and a second insert element (22) is placed into the second side opening (24). At least part of a pressure control device (18) is accommodated by said first insert element (21), and at least part of a flow rate adjustment device (19) is accommodated by said second insert element (22).

An axial flow regulator includes a lateral access port through a portion of the valve body that provides access to a valve seat assembly and/or other portions of the valve trim without having to remove or uncouple the outlet flange or the inlet flange from the adjacent pipe sections. The lateral access port may extend through an outlet flange portion of the valve body and is configured to allow a valve seat assembly to be laterally inserted into and removed from the outlet flange. A valve seat assembly which may be configured for installation in the axial flow regulator includes a pad holder and a support ring for the pad holder that is separable from the pad holder. The pad holder may have alignment struts projecting radially outwardly from a pad support body. The support ring may include strut receivers that slidably receive the alignment struts of the pad holder.

Various devices, assemblies, components, systems, and methods are provided relating to a volume flow rate smoothing device. An example smoothing device may include a body portion defining a chamber therein. The smoothing device may further include a first flow restrictor portion and a second flow restrictor portion each disposed in fluid communication with the body. The smoothing device may be configured to fluidically communicate with a pump via a first end of the smoothing device to receive a fluid flow from the pump along a fluid pathway extending through the first flow restrictor portion, the body portion, and the second flow restrictor portion. The first flow restrictor portion may be disposed upstream of the body portion. The second flow restrictor portion may be disposed downstream of the body portion.

An automatic balancing valve is described, wherein a pressure regulator device is provided and comprises a sleeve sliding axially between a position opening at least one passage port for the fluid towards the outlet channel and a position closing the passage port/s depending on the pressure difference detected between two different chambers separated by an elastic membrane.

A control valve including: a valve body, a flow shutter operatively interposed between an inlet and an outlet, a driving spindle having at least a first actuating end and a second end connected to the flow shutter. The valve also includes a differential pressure automatic regulation device, comprising: a cup-shaped body arranged around the driving spindle and axially mobile with respect to said driving spindle; a spring operatively interposed between the valve body and the cup-shaped body to push the latter away from the flow shutter; a rolling membrane having a radially inner edge fixed to the cup-shaped body and a radially outer edge fixed to the valve body to delimit a first chamber in fluid communication with the inlet and a second chamber in fluid communication with the outlet.

The invention relates to a regulating valve (1) for regulating the flow rate and differential pressure in fluid-guiding heating or cooling systems, the regulating valve consisting of a housing (2) with an inlet (3) and outlet (4) and therebetween a connection piece (5) with disposed therein a regulating device (9), a first flow-regulating device (10) and a second flow-regulating device (11). In the direction of flow of the fluid flowing through the valve, following the inlet (3) is the first flow-regulating device (10), followed by the second flow-regulating device (11), followed by the regulating device (9), followed by the outlet (4). Further provided arc a spindle (12), disposed in the connection piece (5), an actuating part (13) and a choke element (14) which is part of the first flow-regulating device (10). The spindle (12) axially penetrates both the regulating device and the second flow-regulating device (11).

A flow control valve including a main valve and a pilot valve for controlling a piston of the main valve. The pilot valve is controlled in part with relatively high pressure fluid ported from a high pressure port and relatively low pressure fluid ported from a low pressure port.

A gas flow regulating device including a housing assembly, an inlet tube assembly, and a biasing device. The housing assembly has a main housing, a valve seat body, and a distal plate forming an outlet orifice. The inlet tube assembly includes a proximal inlet end, a tube forming a lumen, and a flange, and is slidably disposed within the main housing, biased to an open state by the biasing device. The flange separates middle and constant pressure chambers within the housing assembly. The inlet tube assembly is transitionable to a closed state in response to pressure in the constant pressure chamber to generate a relatively constant flow rate of air exiting the device via the outlet orifice.

The invention relates to a pressure-independent control valve comprising a fluid inlet; a fluid outlet; a fluid path between the fluid inlet and the fluid outlet; a pressure differential control, wherein the pressure differential control comprises a chamber in fluid communication with the fluid path; and a drain. The drain comprises a drain outlet in fluid communication with the chamber and a drain closure to open and close the drain outlet. Fluid can drain from the valve when the drain outlet is open. The drain closure is movable between an open position to open the valve and a closed position to close the valve. The invention further relates to a fluid system comprising the valve with the drain, and to a method of draining the valve via the drain.

The invention relates to a pressure independent control valve comprising: a valve body comprising a fluid inlet and a fluid outlet, a fluid path between the fluid inlet and the fluid outlet; a pressure differential control; and a sleeve inserted within the valve body; whereby the pressure differential control comprises a chamber in fluid communication with the fluid inlet or the fluid outlet. When the chamber is in fluid communication with the fluid outlet, the sleeve comprises a first fluid channel extending between the fluid outlet and the chamber to provide the fluid communication between the fluid outlet and the second chamber. Alternatively, when the chamber is in fluid communication with the fluid inlet, the sleeve comprising a second fluid channel extending between the fluid inlet and the chamber to provide the fluid communication between the fluid inlet and the chamber. The invention also relates to a fluid system comprising the pressure-independent control valve comprising the sleeve and to a method of distributing fluid pressure using the pressure-independent control valve with the sleeve.