Abstract: Sucker rods include end fittings having an outer wedge portion proximate to an open end, an inner wedge portion proximate to a closed end, and an intermediate wedge portion between the outer and inner wedges. Each wedge includes a leading edge, a trailing edge, and an angle between the leading and trailing edges. The triangular configuration, length of the leading edge, the length of the trailing edge, and size of the angle in each wedge portion cause distribution of force, such that compressive forces distributed to the rod proximate the closed end exceed compressive forces distributed to the rod proximate the open end. An automated installation procedure installs the end fitting through the use of multiple chucks, positioned by servo motors along a fitting table.

Abstract: A guide for sucker rods comprises a cylindrical shape including an orifice for the sucker rod and four protrusions extending outwardly therefrom. The guide utilizes a symmetrical two-piece design wherein each piece comprises a semi-cylindrical shape, with one full protrusion extending the length of the guide and two half protrusions extending half the length of the guide and also beyond the semi-cylindrical profile. These two pieces are attached to each other by means of an interference fit between two pairs of interlock surfaces, one pair of which is located on the inner surface of the portion of the half-protrusions extending beyond the semi-cylindrical profile, and the other pair of which is located on the outer surface of the guide on the opposite side from the two half protrusions. Epoxy is injected into grooves along the internal surface of the cylindrical shape by means of ports extending through the rod guide.

Abstract: Sucker rods include end fittings having an outer wedge portion proximate to an open end, an inner wedge portion proximate to a closed end, and an intermediate wedge portion between the outer and inner wedges. Each wedge includes a leading edge, a trailing edge, and an angle between the leading and trailing edges. The triangular configuration, length of the leading edge, the length of the trailing edge, and size of the angle in each wedge portion cause distribution of force, such that compressive forces distributed to the rod proximate the closed end exceed compressive forces distributed to the rod proximate the open end.

Abstract: The present disclosure relates to a fiberglass rod with connectors on each end. Each connector has a rod-receiving receptacle having an open end, a closed end, and axially spaced annular wedge shaped surfaces such that the compressive forces between the rod and the respective connector are defined by the shape of the wedged surfaces.

Abstract: The present disclosure relates to a fiberglass rod with connectors on each end. Each connector has a rod-receiving receptacle having an open end, a closed end, and axially spaced annular wedge shaped surfaces such that the compressive forces between the rod and the respective connector are defined by the shape of the wedged surfaces.