Abstract: In order to achieve high opening speeds in a dry running gas valve with electromagnetic actuation, it is provided to arrange the engagement point of the magnet armature 22 and the limit stop at the radially inner guide region 16 of the valve element 2. Due to the resulting reduced deflection, the valve element can be built more compact and lighter and the residual air gap can be reduced, which allows higher opening speeds.

Abstract: Further disclosed herein is a method for controlling fluid flow. The method includes, selectively deforming at least one selectively deformable member disposed between two tubular members that are radially aligned with one another, at least one of the at least one deformable member being positioned between a fluid inlet and a fluid outlet. The method further includes regulating flow of fluid by deforming the at least one deformable member positioned between the fluid inlet and the fluid outlet sufficiently to achieve a desired flow rate.

Abstract: A flow control includes a support having a passage and a seal surface, a deformable seal that is engageable with the seal surface, and a bias member for exerting a variable bias against the deformable seal. The seal surface includes channels formed in its surface that extend beneath the deformable seal. The bias member can exert a bias sufficient to cause the deformable seal to fill the channels, preventing fluid flow through the channels. When the bias member decreases the bias against the deformable seal, the deformable seal gradually moves out of the channels, allowing fluid flow through the channels, and through the passage in the flow control. The deformable seal does not need to separate from the seal surface to allow fluid flow. Instead, fluid flows through the small, controlled flow areas created when the deformable seal withdraws from the channels.

Abstract: A multi-diaphragm flow control valve includes a valve body separable into two parts. Each part includes an interior chamber having a closed end which separates the chambers when the parts are joined and an open end for connection to a pipe. An outer chamber surrounds a portion of the interior chamber and is separated therefrom by an interior wall. Slots connect the interior and outer chambers. The outer chambers connect to form a diaphgram chamber when the parts are joined. A cylindrical bell type elastomeric diaphragm having a central outwardly extending hump and with legs extending axially from opposite sides of the hump is positioned in the diaphragm chamber with the respective legs of the diaphragm over the slots through the interior walls of respective parts. The diaphragm is pressurized to block or allow flow through respective slots and each leg of the diaphragm acts as an independent diaphragm.

Abstract: A multi-diaphragm flow control valve includes a valve body separable into two parts. Each part includes an interior chamber having a closed end which separates the chambers when the parts are joined and an open end for connection to a pipe. An outer chamber surrounds a portion of the interior chamber and is separated therefrom by an interior wall. Slots connect the interior and outer chambers. The outer chambers connect to form a diaphgram chamber when the parts are joined. A cylindrical bell type elastomeric diaphragm having a central outwardly extending hump and with legs extending axially from opposite sides of the hump is positioned in the diaphragm chamber with the respective legs of the diaphragm over the slots through the interior walls of respective parts. The diaphragm is pressurized to block or allow flow through respective slots and each leg of the diaphragm acts as an independent diaphragm.