Abstract: A gas and oil well controller includes a microcomputer control circuit which can control well production by monitoring well pressure levels, by time limitations, or any combination of the two. The controller includes a casing pressure sensor, a tubing pressure sensor, and a line pressure sensor for sensing pressure in the sales line, and a plunger position sensor for sensing the position of a plunger adjacent a top position in the well tubing. The microcomputer control circuit is in operative communication with the production valve, the casing pressure sensor, tubing pressure sensor, the line pressure sensor and the plunger sensor to open and close the production valve for gas flow to the sales line when the casing, tubing, and line pressures bear a predetermined relationship to preselected pressure limits or when the plunger is sensed by the plunger sensor. The controller includes a device for preselecting limit delays to suspend valve operations during pressure surges to avoid premature opening or closing.

Abstract: An adjustable choke for automatically regulating high velocity flow through a pipe line is provided. The choke comprises a generally cylindrical elongated body including an axially-directed inlet port at one end, means for selectively controlling flow through the regulator at the other end, and a radially-directed outlet port intermediate of the body. A pair of slidable, annular rings contained in the body adjacent the inlet port comprise an upstream ring and a downstream ring. Each of the rings are spring biased from the other. The upstream ring includes a flow passageway and a flow obstructing portion. The downstream ring includes a plurality of flow passageways, at least one of said downstream ring flow passageways being disposed out of communicable flow alignment with the upstream ring flow passageway.