A slip coupling tool having an interior surface sized for receiving a pipe. The coupling tool includes a semi-annular collar sized to engage an exterior surface of the pipe. The collar extends to a rearward end face sized and shaped for aligning with an end of the slip coupling when the collar receives the pipe and the inner surface of the collar engages an exterior surface of the pipe. The slip coupling tool includes a striking plate extending outward from the collar. The striking plate has an impact surface spaced from the collar for impacting the coupling tool to drive the slip coupling into position along the pipe. The slip coupling tool includes a handle extending outward from the collar for manipulating the tool into position while impacting the impact surface of the striking plate to drive the slip coupling into position along the pipe.

A slip coupling tool having an interior surface sized for receiving a pipe. The coupling tool includes a semi-annular collar sized to engage an exterior surface of the pipe. The collar extends to a rearward end face sized and shaped for aligning with an end of the slip coupling when the collar receives the pipe and the inner surface of the collar engages an exterior surface of the pipe. The slip coupling tool includes a striking plate extending outward from the collar. The striking plate has an impact surface spaced from the collar for impacting the coupling tool to drive the slip coupling into position along the pipe. The slip coupling tool includes a handle extending outward from the collar for manipulating the tool into position while impacting the impact surface of the striking plate to drive the slip coupling into position along the pipe.

A teat dip fluid manifold and methods for distributing teat dip fluids, and including redundant valve sets and pressure monitoring between valve pairs to determine valve condition.

A teat dip fluid manifold and methods for distributing teat dip fluids, and including redundant valve sets and pressure monitoring between valve pairs to determine valve condition.

A multiple action forced fluid evacuation system includes a reservoir for receiving a working fluid therein, and a shutoff valve provided in the reservoir. An outer rigid conduit and an inner flexible conduit are connected between the shutoff valve and a receiver. A processing module is provided for at least controlling pressurized gas between the outer conduit and the inner conduit, and is operatively connected to the outer conduit and the inner conduit. A nozzle has one end in fluid communication with a source of the working fluid, and an opposite end removably coupled to the receiver. The nozzle normally enables flow of the working fluid through the inner conduit to the reservoir when the nozzle is connected to the receiver until the working fluid in the reservoir activates the shutoff valve causing the nozzle to cease flow of the working fluid leaving a portion of the working fluid trapped in the receiver and the inner conduit. Removal of the nozzle from the receiver activates the processing module and causes the portion of the working fluid trapped in the inner conduit and the receiver to be completely and sequentially evacuated into the reservoir.

A multiple action forced fluid evacuation system includes a reservoir for receiving a working fluid therein, and a shutoff valve provided in the reservoir. An outer rigid conduit and an inner flexible conduit are connected between the shutoff valve and a receiver. A processing module is provided for at least controlling pressurized gas between the outer conduit and the inner conduit, and is operatively connected to the outer conduit and the inner conduit. A nozzle has one end in fluid communication with a source of the working fluid, and an opposite end removably coupled to the receiver. The nozzle normally enables flow of the working fluid through the inner conduit to the reservoir when the nozzle is connected to the receiver until the working fluid in the reservoir activates the shutoff valve causing the nozzle to cease flow of the working fluid leaving a portion of the working fluid trapped in the receiver and the inner conduit. Removal of the nozzle from the receiver activates the processing module and causes the portion of the working fluid trapped in the inner conduit and the receiver to be completely and sequentially evacuated into the reservoir.

One-way valve devices can be used within fluid systems. For example, this document provides one-way valves that can be installed within a lumen of a tube, a fitting, and other types of tubular members. In some embodiments, the one-way valve includes a unitary frame and a ball member that is loosely constrained within the confines of the frame.

One-way valve devices can be used within fluid systems. For example, this document provides one-way valves that can be installed within a lumen of a tube, a fitting, and other types of tubular members. In some embodiments, the one-way valve includes a unitary frame and a ball member that is loosely constrained within the confines of the frame.

A method, system, and apparatus are provided for a safety relief bypass system for an oil pumping pipeline that provides pressure relief to the pipeline in order to prevent and reduce pipeline rupture. More specifically, the bypass system can include one or more rupture discs having a specific burst pressure that allows fluids under pressure to bypass through alternative pipeline thereby preventing damage to other piping components.

A three-way connector includes a body provided with an inlet, a first outlet in line with the inlet, a first waterway defined to communicate the inlet with the first outlet and a second outlet communicating with the inlet and the first outlet via a second waterway vertically defined relative to the first waterway. A filter assembly is received inside the first waterway and having a texture in line with the first waterway.