The present invention relates to valve apparatus (1) comprising a valve member (4) moveable for controlling flow through a fluid carrying bore (3). The valve member comprises a valve element (13) coupled to a stem element (5) extending within a stepped stem bore (8) in a stem body, the stem element projecting out from the stem body (2) through a stem bore opening. The valve member is further provided with a pressure-energizable multi-element stem seal (9) within the stem bore, the stem element having a profile which inhibits compete removal of the valve member through the stem bore opening.

A cap for a valve includes a mounting end defining a lower cavity and a stem engagement cavity therein; and an actuating end distal from the mounting end and comprising a rotation tab, the rotation tab defining a surface defining a window exposing the stem engagement cavity. A method of manufacturing a valve includes inserting a stem of the valve into a valve body of the valve through an end of the valve body; placing a cap of the valve over an end of the stem, the end of the stem engaging a mounting hole of the cap; and checking the vertical position of the stem relative to the cap through a window defined in a surface of the cap that exposes the stem.

A valve device includes a body, a joint, a check valve, a valve seat fixation member having an outer peripheral surface on which an external thread is provided, and a sealing member. The body has an attachment hole that attaches the joint and the valve seat fixation member from an outside of the body in a sequence of the joint and the valve seat fixation member, and that has an inner peripheral surface in which an internal thread screwed to the external thread of the valve seat fixation member is provided. The sealing member is provided between the joint and the valve seat fixation member. An outer peripheral edge of the sealing member is located radially inward of a screwed region of the internal thread and the external thread.

A push-fit spigot. The spigot includes a push-fit coupling member removably disposed within an internal passage of a body of the spigot. The coupling member enables simple push-fit installation of the spigot on a stub-out in a structure. The coupling member is retained within the internal passage of the spigot by a removable fastener. A removal plate is installed on the stub-out prior to making insertion of the stub-out into the coupling member. Removal of the spigot from an installation on the stub-out is simply performed by removing the fastener between the coupling member and the body to enable removal of the body. The removal plate is then useable to depress a release collar in the coupling member to disengage the push-fit mechanism therein from the stub-out.

Embodiments of the invention provide a trim arrangement for a ball valve. The trim arrangement includes a first seat assembly having a first seat, a threaded collar, and a biasing element. The first seat is in contact with a first side of a ball element, and the threaded collar is threadably coupled to the first seat and in engagement with the biasing element. The trim arrangement further includes a second seat assembly having a second seat in contact with a second side of the ball element. The biasing element biases the first seat toward the first side of the ball element to provide a contact stress between the first seat and the first side of the ball element and the second seat and the second side of the ball element. The contact stress provided by the biasing element is adjustable by rotating the first seat.

A cap for a valve includes a mounting end defining a lower cavity and a stem engagement cavity therein; and an actuating end distal from the mounting end and comprising a rotation tab, the rotation tab defining a surface defining a window exposing the stem engagement cavity. A method of manufacturing a valve includes inserting a stem of the valve into a valve body of the valve through an end of the valve body; placing a cap of the valve over an end of the stem, the end of the stem engaging a mounting hole of the cap; and checking the vertical position of the stem relative to the cap through a window defined in a surface of the cap that exposes the stem.

A compact manifold ball valve having a valve body, valve ball, valve stem and two piece retainer system; the valve body including a valve chamber having first and second ends, and a first flow passage intersecting the valve chamber and valve ball. The valve ball can be trunnion supported and include pair of movable seat assemblies that can be used to seal the valve ball to the valve body. A two piece retainer can be used to hold in place the valve components, the two piece retainer including a first section which moves only linearly along with a second retainer piece that is a threaded ring that rotationally locks in place the first section of the two piece retainer. The two pieces of the retainer can be symmetrically located about the centerline of the flow passage of the valve body.

A ball valve assembly includes a housing having a valve chamber with an inlet opening and an outlet opening. A dynamic seal assembly including a spring member and a seal member are disposed in a seal chamber in one of the inlet opening and the outlet opening, wherein the spring member biases an end portion of the seal member into the valve chamber. A valve member includes a partially spherical outer surface with a recessed cam feature extending from the outer surface and a valve opening disposed in the outer surface, wherein during assembly of the valve member in the valve chamber the recessed cam feature is aligned with the end portion of the seal member and the valve member is rotated to engage the outer surface of the valve member with the end portion of the seal member.

A ball valve assembly includes a housing having a valve chamber with an inlet opening and an outlet opening. A dynamic seal assembly including a spring member and a seal member are disposed in a seal chamber in one of the inlet opening and the outlet opening, wherein the spring member biases an end portion of the seal member into the valve chamber. A valve member includes a partially spherical outer surface with a recessed cam feature extending from the outer surface and a valve opening disposed in the outer surface, wherein during assembly of the valve member in the valve chamber the recessed cam feature is aligned with the end portion of the seal member and the valve member is rotated to engage the outer surface of the valve member with the end portion of the seal member.

A valve that includes a housing, a ball having a channel passing therethrough, the ball housed within the housing, a stem extending out from a surface of the ball perpendicular to the channel, a gear coupled to the stem, the gear comprising a number of teeth, and a sleeve having a racked channel defined on an interior surface of the sleeve that interfaces with the teeth of the gear.