Embodiments of a polyethylene (“PE”) pipe servicing system of this disclosure may include a fusible PE fitting (F) providing a branch connection to a PE pipeline section or run (P), a valve (10) connected to the fitting and including quick connect/disconnect means, and a machine connectable to the valve including complementary quick connect/disconnect means. The quick connect means provide for full scope of operation, including cleaning, fusion, cool down, hot tap, plugging, and completion. No squeezing is used. The quick connect/disconnect means may include a first portion 20 of a cam profile and a second portion 40 of the cam profile complementary to that of the first. The machine may be a drilling or hot tapping machine (30T), a plugging machine (30P), or a completion machine (30 C), and their associated tools. The valve and machine are more lightweight and faster and easier to use than the prior art.

Apparatus (10) for the controlled delivery of a gas from a mobile container (11) that comprises a connection unit (12) configured to connect a unit, to measure and regulate the flow (35) of the gas to the container (11) and a management unit (32) configured to control and manage the unit to measure and regulate the flow (35), on the basis of information correlated to a quantity of the gas to be delivered.

A tank valve for installation at a pressure gas tank has a base body including a first base body section, which in the assembled state projects into the pressure gas tank and is sealingly connected with the same, and includes a second base body section, which in the assembled state remains outside the pressure gas tank. The tank valve further has a plurality of functional sub-groups for refueling the pressure gas tank via a refueling path, for the extraction of gas from the pressure gas tank via an extraction path, and for implementing safety and operating functions.

Proposed are a pressure control method for a high-pressure regulator to prevent internal leak, and a high-pressure shut-off valve so as to minimize an internal leak, due to high-pressure gas remaining in a high-pressure fuel line when a valve of a gas storage tank is shut off, caused by a pressure difference between a front end portion and a rear end portion of the high-pressure regulator introducing or discharging high-pressure gas. Accordingly, the convenience for connecting work is provided, the high safety is ensured, and the high-pressure regulator is used with the high reliability.

An electro-pneumatic valve assembly includes a valve having a valve housing and a poppet and a solenoid valve having an actuator housing and a valve body. The valve housing has a wall that defines a valve inlet that is arranged to receive a fluid flow from a pressurized container and defines a valve outlet and a first port. The poppet is disposed within the valve housing and is movable between a first position and a second position. The actuator housing defines an opening. The valve body has a first wall that defines an inlet that is fluidly connected to the first port and a second wall that defines an outlet that is fluidly connected to the second port.

Provided is a pressure control method for a high-pressure regulator to prevent internal leak, and the high-pressure shut-off valve so as to minimize an internal leak, due to high-pressure gas remaining in a high-pressure fuel line when a valve of a gas storage tank is shut off, caused by a pressure difference between a front end portion and a rear end portion of the high-pressure regulator introducing or discharging high-pressure gas. Accordingly, the convenience for connecting work is provided, the high safety is ensured, and the high-pressure regulator is used with the high reliability.

A hydraulic system includes a hydraulic pump, a first hydraulic actuator, a second hydraulic actuator, a first control valve to control the first hydraulic actuator, a second control valve to control the second hydraulic actuator, a return fluid tube in which a return fluid discharged from the first hydraulic actuator flows, the return fluid tube connecting the first control valve and the first hydraulic actuator, a first inner fluid tube provided in the first control valve and connected to the return fluid tube, an outer fluid tube connected to the first inner fluid tube, the outer fluid tube connecting the first control valve and the second control valve, a return-discharge fluid tube to discharge the return fluid, the discharge fluid tube being branched from the outer fluid tube, and a throttle provided in the return-discharge fluid tube.

An air compressor includes a prime mover, an air end operably connected to the prime mover, the air end configured to compress air, and an electronic inlet valve operably connected to the air end. The electronic inlet valve includes a valve body having an air inlet, a linear actuator coupled to a valve stem assembly, a valve member coupled to the valve stem assembly, a portion of the valve stem assembly is slidably received in a chamber. The chamber includes a first portion in fluid communication with a first fluid and a second portion in fluid communication with a second fluid. The linear actuator is configured to actuate the valve member through the valve stem assembly to control a flow of air to the air end, and wherein the first fluid is at a different pressure than the second fluid.

An air compressor includes a prime mover, an air end operably connected to the prime mover, the air end configured to compress air, and an electronic inlet valve operably connected to the air end. The electronic inlet valve includes a valve body having an air inlet, a linear actuator coupled to a valve stem assembly, a valve member coupled to the valve stem assembly, a portion of the valve stem assembly is slidably received in a chamber. The chamber includes a first portion in fluid communication with a first fluid and a second portion in fluid communication with a second fluid. The linear actuator is configured to actuate the valve member through the valve stem assembly to control a flow of air to the air end, and wherein the first fluid is at a different pressure than the second fluid.

A dispenser includes a housing, an inverted container disposed in the housing, a outlet nozzle, a pump, a first check valve, and a second check valve. The pump is disposed between the container and the outlet nozzle. The pump includes a pump inlet a pump outlet, and a pump chamber. The pump chamber is movable between an expanded position and a compressed position. The first check valve is disposed between the pump and the outlet nozzle, and the first check valve has a first cracking pressure. The second check valve is disposed between the first check valve and the outlet nozzle, and the second check valve has a second cracking pressure. The second cracking pressure of the second check valve is greater than the first cracking pressure of the first check valve.