Example valve stem and plug connections and example staking tools are described herein. An example apparatus includes a valve plug having a first side, a second side opposite the first side and a bore extending from the first side to the second side. A first portion of the bore is tapered from a first diameter to a second diameter smaller than the first diameter. A valve stem is disposed within the bore of the valve plug. The valve stem includes a first section, a second section and a third section between the first and second sections. The third section is tapered from a third diameter to a fourth diameter smaller than the third diameter. The tapers of the first portion of the valve plug and the third section of the valve stem, when engaged, create a frictional force that resists movement of the valve stem out of the bore.

Example valve stem and plug connections and example staking tools are described herein. An example apparatus includes a valve plug having a first side, a second side opposite the first side and a bore extending from the first side to the second side. A first portion of the bore is tapered from a first diameter to a second diameter smaller than the first diameter. A valve stem is disposed within the bore of the valve plug. The valve stem includes a first section, a second section and a third section between the first and second sections. The third section is tapered from a third diameter to a fourth diameter smaller than the third diameter. The tapers of the first portion of the valve plug and the third section of the valve stem, when engaged, create a frictional force that resists movement of the valve stem out of the bore.

A tool includes a shaft having a front end and a distal end; a displacement mechanism for extending and retracting the shaft; and one or more pivoting tool elements coupled to the tool shaft proximate to the distal end of the shaft, wherein the one or more pivoting tool elements includes a body having an upper element and a lower element, wherein the one or more pivoting tool elements includes a pivot point about which the upper element and lower element pivot while coupled to the shaft. A method includes extending the tool shaft and the pivoting tool element into a bore of the flow control device; pivoting the pivoting tool element while extending the tool shaft through a removable component of the flow control device; and removing the removable component from the flow control device by retracting the tool shaft through the bore of the choke.

A tool includes a shaft having a front end and a distal end; a displacement mechanism for extending and retracting the shaft; and one or more pivoting tool elements coupled to the tool shaft proximate to the distal end of the shaft, wherein the one or more pivoting tool elements includes a body having an upper element and a lower element, wherein the one or more pivoting tool elements includes a pivot point about which the upper element and lower element pivot while coupled to the shaft. A method includes extending the tool shaft and the pivoting tool element into a bore of the flow control device; pivoting the pivoting tool element while extending the tool shaft through a removable component of the flow control device; and removing the removable component from the flow control device by retracting the tool shaft through the bore of the choke.

A tool for installing or removing valve keepers is disclosed. One end of the tool is configured to easily remove valve keepers, while the other end of the tool is configured to easily install valve keepers. This valve tool can be further connected to an engine-mounted lever assembly for increasing leverage on the tool during use.

A tool for installing or removing valve keepers is disclosed. One end of the tool is configured to easily remove valve keepers, while the other end of the tool is configured to easily install valve keepers. This valve tool can be further connected to an engine-mounted lever assembly for increasing leverage on the tool during use.

A release tool for use with a push-fit valve includes a fixed member and a movable member. The fixed member includes: a central portion defining a base aperture, the central portion being rotatably fixed relative to the valve when a valve lever base is received in the base aperture; and a guiding arm extending from a side of the central portion so as to extend along a side of a valve body. The movable member defines: a conduit aperture configured for a conduit to extend therethrough during use; and a guiding aperture receiving the guiding arm of the fixed member. To disconnect the conduit from the valve, the movable member is moved from the first position to the second position to push the release collar inwardly into the valve, causing a grab ring of the valve to release the conduit. The movable member is selectively retained in the second position.

An operating nut can include a body and a digital identification tag secured to the body, at least one of the body and the digital identification tag defining an outer surface of the operating nut. The body can define a central bore defining an axis and can include a working portion defining an end surface and a plurality of side surfaces defining a polygonal shape in a cross-sectional plane orthogonal to the axis; and a flange portion extending outward from the working portion in a radial direction with respect to an axis of the operating nut, the flange portion defining a first end surface and a second end surface, the central bore extending through each of the working portion and the flange portion.

An operating nut can include a body and a digital identification tag secured to the body, at least one of the body and the digital identification tag defining an outer surface of the operating nut. The body can define a central bore defining an axis and can include a working portion defining an end surface and a plurality of side surfaces defining a polygonal shape in a cross-sectional plane orthogonal to the axis; and a flange portion extending outward from the working portion in a radial direction with respect to an axis of the operating nut, the flange portion defining a first end surface and a second end surface, the central bore extending through each of the working portion and the flange portion.

Some embodiments of the present disclosure include a tool set for the installation and removal of a gasket from a hose. The tool set may include a gasket insertion tool configured to install a gasket on a hose, the gasket insertion tool being self-centering and having a plunger foot configured to install the gasket onto the hose. The tool set may also include a gasket removal tool configured to remove a gasket from a hose, the gasket removal tool being self-centering and including at least one blade configured to grab onto the gasket to remove the gasket from the hose.