A retainer gripping device, configured to grip a retainer accommodating a set of cotters inside the retainer, includes a retainer gripping unit, a retainer supporting portion, and a cotter supporting portion. The retainer gripping unit is configured to grip the retainer. The retainer supporting portion is configured such that the retainer gripped by the retainer gripping unit is placed in a state in which the set of cotters are accommodated inside the retainer. The cotter supporting portion is configured to support lower end edge portions of the cotters accommodated inside the retainer in a state in which the lower end edge portions are lifted upward higher than a lower end edge portion of the retainer.

An auxiliary fixture for a tire pressure monitoring device has a handle, a positioning base, and a holding lever. The positioning base is connected to the handle and has a pivot segment and a clamping segment. The pivot segment is deposited on a rear side of the positioning base and is pivotally connected to the handle. The clamping segment is deposited on a front side of the positioning base, is connected to the pivot segment, and has two adjusting elements and a pushing pin. The adjusting elements are deposited on a front side of the clamping segment, and the pushing pin is deposited between the adjusting elements to press against the tire pressure monitoring device. A distance between the adjusting elements can be adjusted to enable the adjusting elements to clamp the tire pressure monitoring device. The holding lever is connected to the handle.

An auxiliary fixture for a tire pressure monitoring device has a handle, a positioning base, and a holding lever. The positioning base is connected to the handle and has a pivot segment and a clamping segment. The pivot segment is deposited on a rear side of the positioning base and is pivotally connected to the handle. The clamping segment is deposited on a front side of the positioning base, is connected to the pivot segment, and has two adjusting elements and a pushing pin. The adjusting elements are deposited on a front side of the clamping segment, and the pushing pin is deposited between the adjusting elements to press against the tire pressure monitoring device. A distance between the adjusting elements can be adjusted to enable the adjusting elements to clamp the tire pressure monitoring device. The holding lever is connected to the handle.

An auxiliary fixture for a tire pressure monitoring device has a handle, a positioning base, and a holding lever. The positioning base is connected to the handle and has a pivot segment and a clamping segment. The pivot segment is deposited on a rear side of the positioning base and is pivotally connected to the handle. The clamping segment is deposited on a front side of the positioning base, is connected to the pivot segment, and has two adjusting elements and a pushing pin. The adjusting elements are deposited on a front side of the clamping segment, and the pushing pin is deposited between the adjusting elements to press against the tire pressure monitoring device. A distance between the adjusting elements can be adjusted to enable the adjusting elements to clamp the tire pressure monitoring device. The holding lever is connected to the handle.

Socket tool for servicing fluid connectors. In one embodiment, a tool includes a body having a hollow recess at one end. The hollow recess has non-circular dimensions for rotating a head fitting of the fluid connector about an axis. The tool further includes a pin that mounts to a surface inside the hollow recess so that the pin is disposed in an axial direction along a center of the axis. The pin enters an aligned opening of a nozzle of the fluid connector and occupies a conduit space in the nozzle when the hollow recess is engaged with the head fitting of the fluid connector.

A customized tool for use in release pressure and liquid from a valve, the customized tool comprising a body component including a conduit having a first end and a second end, the first end operating as an inlet having a size of a first diameter, an arm component including a conduit and a threaded outlet port, the conduit of the arm component forming an angled pathway with the conduit of the body component, a limit rod that threadably couples with the second end of the body component, at least a portion of the limit rod being threaded, a fastener that threadably couples to the limit rod and is used to limit a movement of the limit rod, and a limit rod stopper to threadably receive the limit rod and abut the limit rod stopper to restrict the movement of the limit rod is shown.

A customized tool for use in release pressure and liquid from a valve, the customized tool comprising a body component including a conduit having a first end and a second end, the first end operating as an inlet having a size of a first diameter, an arm component including a conduit and a threaded outlet port, the conduit of the arm component forming an angled pathway with the conduit of the body component, a limit rod that threadably couples with the second end of the body component, at least a portion of the limit rod being threaded, a fastener that threadably couples to the limit rod and is used to limit a movement of the limit rod, and a limit rod stopper to threadably receive the limit rod and abut the limit rod stopper to restrict the movement of the limit rod is shown.

A cartridge extractor adaptor having a cylindrical adaptor configured to engage between a cartridge puller and faucet housing in order to extend the pulling force of the cartridge puller. The cartridge extractor adaptor may be constructed of a composite or a metal alloy, having a tensile strength and wall thickness that is substantially greater than the pulling force generated by the cartridge puller. The cartridge extractor adaptor is structured and arranged having a hollow core body with a tool receiver flange at its proximal end, and a valve housing receiver flange at its distal end. The hollow body includes a pair of cartridge guide relief openings in the sidewall.

A cartridge extractor adaptor having a cylindrical adaptor configured to engage between a cartridge puller and faucet housing in order to extend the pulling force of the cartridge puller. The cartridge extractor adaptor may be constructed of a composite or a metal alloy, having a tensile strength and wall thickness that is substantially greater than the pulling force generated by the cartridge puller. The cartridge extractor adaptor is structured and arranged having a hollow core body with a tool receiver flange at its proximal end, and a valve housing receiver flange at its distal end. The hollow body includes a pair of cartridge guide relief openings in the sidewall.

A valve strainer basket of an interceptor-type or control-type steam valve is removed from its nested orientation within a counter bore and valve rim of the valve casing. A strong back beam straddles the casing rim over the strainer basket. It is coupled to the strainer basket, such as by engagement of threaded rods into threaded apertures formed in the strainer basket rim. Biasing cylinders, such pressurized fluid cylinders or screw jacks, are interposed between the casing rim and opposite ends of the strong back beam. When the biasing cylinders are actuated, the strong back beam rises, lifting and separating the strainer rim from its nested engagement with the counter bore of the valve casing.