A valve for regulating a fluid flow includes a body portion, a tail portion, and a coupling mechanism joining the body portion to the tail portion. The coupling mechanism includes a plurality of body portion lugs, each body portion lug being separated from an adjacent body portion lug by a body portion opening. The coupling mechanism also includes a plurality of tail portion lugs, each tail portion lug being separated from an adjacent tail portion lug by a tail portion opening. In operation, each body portion lug is adapted to axially move through a corresponding tail portion opening to transition an axial position of the tail portion relative to the body portion, at least one of the tail portion or the body portion being rotatable axially a body portion lug with a tail portion lug to block axial movement of the tail portion relative to the body portion.

Disclosed is a valve comprising: an annular body defining a body bore having a bore axis, the body further defining a channel coannular with the bore, the channel comprising an axially outer edge defining a seat retention groove, the seat retention groove comprising a metal barrier; an annular valve seat positioned in the channel, the valve seat comprising a radially inner surface; and a valve element positioned in the bore and coupled to the body, the valve element comprising a rotatable disc configured to rotate about and between a closed position, in which the rotatable disc is configured to prevent fluid from flowing through the valve, and an open position, in which the rotatable disc is configured to allow maximum fluid flow through the valve, the radially inner surface of the valve seat configured to seal against the rotatable disc in the closed position.

A method of assembling a valve includes inserting a stem of the valve into a valve body of the valve through an end of the valve body, the stem defining a first end engaged with the valve body; securing a fastener to a second end of the stem; and placing a cap of the valve over the second end of the stem, the fastener engaging the cap.

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.

Example aspects of a valve are disclosed. The valve can comprise a valve body defining a first end, a second end opposite the first end, an inner surface, and an outer surface, the inner surface defining a body bore extending from the first end to the second end and a channel extending radially outward from the body bore, the channel defining a seat retention groove; a metal barrier applied to the inner surface and covering the seat retention groove, the metal barrier defining a first edge and a second edge, the first edge oriented between the seat retention groove and the first end, and the second edge oriented between the seat retention groove and the second end; and a valve seat positioned within the channel.

Disclosed is a valve comprising: an annular body defining a body bore having a bore axis, the body further defining a channel coannular with the bore, the channel comprising an axially outer edge defining a seat retention groove, the seat retention groove comprising a metal barrier; an annular valve seat positioned in the channel, the valve seat comprising a radially inner surface; and a valve element positioned in the bore and coupled to the body, the valve element comprising a rotatable disc configured to rotate about and between a closed position, in which the rotatable disc is configured to prevent fluid from flowing through the valve, and an open position, in which the rotatable disc is configured to allow maximum fluid flow through the valve, the radially inner surface of the valve seat configured to seal against the rotatable disc in the closed position.

A ball valve (10) is described comprising a valve body (12) in which an axial channel (14) for the unidirectional flow of a fluid is obtained. The axial channel (14) extends between an inlet port (11) and an outlet port (13) for the fluid, wherein the ports are axially aligned with the axis of the axial channel (14). The valve is provided with a motorized actuator (20) for adjusting the position of the fluid adjusting ball (15) and comprises a head block (17) for installing the motorized actuator (20) on the valve body (12). The head block (17) includes at least one stem (21) for rotating the ball (15). The valve body (12) has a first window (26) whose axis is coincident with the axis of rotation of the ball (15) and at least one second window (27) whose axis is coincident with the axis of rotation of the ball (15). The first and second windows (26, 27) are symmetrically made in opposite parts of the valve body (12) with respect to the axis of the axial channel (14) and have the same shape and size to receive, on one side, the head block (17) on the valve body (12) and, on the opposite side of the valve body (12), a covering element (18). The head block (17) has an engaging portion (71) having shape and size adapted to allow it to be inserted into the first window (26) or into the second window (27).

A valve includes a valve body; a valve sealing element positioned inside the valve body; a stem positioned inside the stem bore of the valve body and engaged with the valve sealing element; and a cap fixed with respect to the stem, the cap comprising a mounting end and an actuating end; the mounting end defining a stem engagement cavity; the actuating end distal from the mounting end; the cap defining a first side surface, a second side surface, and a top surface; the cap defining a window in a position between the mounting end and the actuating end; the window defined in and extending from one of the first side surface, the second side surface, and the top surface; and the window exposing a surface of the stem but preventing passage of the stem through the window.

An integral copper press-fit connection ball valve is provided which includes a bronze central body defining a chamber and a flow path between an upstream inlet and a downstream outlet. A ball having a through passageway is positioned in the chamber and adapted to rotate between an open flow position and a closed flow position. A copper inlet press-fit retainer is connected to the inlet, and a copper outlet press-fit retainer is connected to the outlet. A ball valve seat is positioned within an inner diameter of each retainer and adapted to be compressed between the ball and the retainers on respective upstream and downstream sides of the ball for retaining the ball in a correct and functional position.

In an opening and closing valve of the invention, an operation dial 6 and a valve body housed in a main body 2 are connected by a rotary shaft 3, and a regulation member 4 having a first fitting hole 422 engaging with a fitter 33 in the rotary shaft 3 is disposed in a housing space 25 of the main body 2. When a second fitting hole 621 in the operation dial 6 is released from the fitter 33 in the closed state, the first fitting hole 422 is fitted into the fitter 33 to regulate the rotation, or when the second fitting hole 621 is fitted into the fitter 33, the first fitting hole 422 is released from the fitter 33 to achieve the rotation.