A valve seat puller head assembly is comprised of seat puller head halves and springs. The seat puller head halves come together forming an opening. A pair of spring clips hold and secure the seat puller head halves together providing the outward force required to pre-position the tool (i.e., seat valve puller head assembly) in proper area for valve seat removal. In one embodiment, the valve seat puller head assembly further comprises an allthread having a tapered buttress engaged with the valve seat puller head via the opening of the valve seat puller head, eliminating thread clearance there between and greatly reducing the shear pressure at a root initiation area. In an alternative embodiment, a subzero temperature glycol solution within a portion of the valve seat puller head is circulated to “cold pull” heat from the valve seat puller head assembly and the valve seat which is in contact therewith.

A valve stem retainer device may include a housing that holds a valve stem. The housing may prevent the valve stem from closing without control. The device may include at least one bracket that holds on to the housing. The device may include a steel rod that holds on to the housing. The steel rod may support the at least one bracket. The device may include a double set of a washer and a nut that ensures a tight and secure connection between the at least one bracket and the housing.

A valve stem retainer device may include a housing that holds a valve stem. The housing may prevent the valve stem from closing without control. The device may include at least one bracket that holds on to the housing. The device may include a steel rod that holds on to the housing. The steel rod may support the at least one bracket. The device may include a double set of a washer and a nut that ensures a tight and secure connection between the at least one bracket and the housing.

A faucet valve cartridge pulling tool comprising a housing, a stem screw, and a collar. The housing has a first end and a second end. The first end has a surface adapted to abut a portion of a faucet valve body. The stem screw has a first end and a second end. The stem screw includes a first threaded section and a second threaded section. The first threaded section is adapted to engage internal threading of a faucet valve cartridge stem located within the faucet valve body. The collar has internal threading engaging the second threaded section of the stem screw. Wherein, rotating the collar relative to the stem screw pulls the first threaded portion axially towards the second end of the housing.

A faucet valve cartridge pulling tool comprising a housing, a stem screw, and a collar. The housing has a first end and a second end. The first end has a surface adapted to abut a portion of a faucet valve body. The stem screw has a first end and a second end. The stem screw includes a first threaded section and a second threaded section. The first threaded section is adapted to engage internal threading of a faucet valve cartridge stem located within the faucet valve body. The collar has internal threading engaging the second threaded section of the stem screw. Wherein, rotating the collar relative to the stem screw pulls the first threaded portion axially towards the second end of the housing.

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.

An installation tool for installing an insert into a bore having a bore material, the insert having a fluid component disposed within a housing, the installation tool including: an outer tool member and an inner tool member, the inner tool member being concentric with, smaller in diameter than, and slidingly engaged within the outer tool member, the inner tool member being configured to axially drive the insert into the bore; wherein an upper end of the outer tool member forms and defines a blind cavity between the inner tool member at one end of the blind cavity and a cavity end wall at an opposing end of the blind cavity; wherein a resilient biasing member is disposed within the blind cavity, the resilient biasing member being configured to provide an axial load on the inner tool member.

An installation tool for installing an insert into a bore having a bore material, the insert having a fluid component disposed within a housing, the installation tool including: an outer tool member and an inner tool member, the inner tool member being concentric with, smaller in diameter than, and slidingly engaged within the outer tool member, the inner tool member being configured to axially drive the insert into the bore; wherein an upper end of the outer tool member forms and defines a blind cavity between the inner tool member at one end of the blind cavity and a cavity end wall at an opposing end of the blind cavity; wherein a resilient biasing member is disposed within the blind cavity, the resilient biasing member being configured to provide an axial load on the inner tool member.

Some embodiments of the invention provide a valve including a body, a valve element arranged within the body to selectively inhibit flow through the body, and a seal assembly that includes a body gasket and a retaining ring. The retaining ring includes a cutter that is arranged to cut the body gasket during installation. A two-plane seal is formed by cutting the body gasket between the retaining ring and the body.