Patent application number | Description | Published |
20080202754 | Casing window milling assembly - Casing window milling assemblies include a conically-shaped section disposed along the tubular of the assembly. This conically-shaped section is a non-cutting portion that is preferably tapered toward the mill head. The conically-shaped section may be part of a flex-joint section of the assembly. Alternatively, the conically-shaped section may be its own sub-assembly secured above the flex-joint. In still another embodiment, the conically-shaped tapered section may be part of the upper mill section of the casing window milling assembly. In one embodiment, the conically-shaped section is disposed along the upper mill section below one or more secondary mills such as a reaming mill and a honing mill. | 08-28-2008 |
20110303294 | BALL-SEAT APPARATUS AND METHOD - An apparatus for restricting fluid flow includes: a ball receiving element disposed in a fluid conduit and configured to receive a ball that has been advanced through the fluid conduit and at least partially restrict fluid flow; and at least one feature disposed on at least one of the fluid conduit and the ball seat configured to reflect pressure waves generated by an impact between the ball and the ball seat. | 12-15-2011 |
20110303418 | METHOD AND APPARATUS FOR REDUCING IMPACT FORCE IN A BALL-SEAT ASSEMBLY - A method of restricting fluid flow includes: releasing a ball into a fluid conduit and receiving the ball in a ball receiving element disposed at the fluid conduit and at least partially restricting fluid flow; and at least partially reflecting one or more pressure waves resulting from an impact between the ball and the ball receiving element by a reflective boundary disposed in the fluid conduit. | 12-15-2011 |
20110303422 | LOW IMPACT BALL-SEAT APPARATUS AND METHOD - An apparatus for restricting fluid flow includes: a ball receiving element disposed in a first fluid conduit and configured to receive a ball that has been advanced through the first fluid conduit and at least partially restrict a fluid flow in the first fluid conduit; and at least one second fluid conduit in fluid communication with the first fluid conduit at an upstream location relative to the ball receiving element, the at least one second fluid conduit configured to divert a portion of the fluid from the first fluid conduit and reduce an impact between the ball and the ball receiving element. | 12-15-2011 |
20120061073 | Debris Chamber with Helical Flow Path for Enhanced Subterranean Debris Removal - A subterranean debris catcher swirls the incoming debris laden stream by putting grooves or spiral projections on the inside of the inlet pipe. In some embodiments the solids come out of openings in the side of the inlet pipe and in others the solids can exit near the top either directly into the enclosed solids holding volume as the liquid exits straight out or the solids can be discharged out the end of the inlet pipe into the bigger open space defined by the housing. In the latter case the inside housing wall can have a screen or vanes that slow down the solid particles as the fluid continues to a housing exit and eventually to an exit screen before being discharged to either go to the surface or recirculate back along the outside of the tool to the inlet pipe while picking up additional debris. | 03-15-2012 |
20120067426 | BALL-SEAT APPARATUS AND METHOD - An apparatus for restricting fluid flow includes: a ball receiving element disposed in a fluid conduit and configured to receive a ball that has been advanced through the fluid conduit and at least partially restrict fluid flow; and at least one seating element at least partially disposed within the fluid conduit, the at least one seating element including at least one of: a shape that extends radially into the fluid conduit and is contoured axially to reduce a rate of deceleration of the ball upon contact with the ball receiving element, and a radially compliant element configured to reduce an impact between the ball and the ball receiving element. | 03-22-2012 |
20120118582 | MAGNETICALLY COUPLED ACTUATION APPARATUS AND METHOD - An actuator includes: a carrier including an axially elongated fluid conduit therein, the fluid conduit configured to received a ball therein; and an axially elongated ball receiving element, wherein one of the ball and the ball receiving element is configured to produce a magnetic field, and another of the ball and the ball receiving element includes an electrically conductive material, the ball and the ball receiving element configured so that the electrically conductive material is exposed to the magnetic field as the ball advances through the ball receiving element, and eddy currents are generated in the electrically conductive material that cause a repulsive force between the ball receiving element and the ball to at least one of reduce a velocity of the ball and actuate the ball receiving element. | 05-17-2012 |
20140014320 | Debris Chamber with Helical Flow Path for Enhanced Subterranean Debris Removal - A subterranean debris catcher swirls the incoming debris laden stream by putting grooves or spiral projections on the inside of the inlet pipe. In some embodiments the solids come out of openings in the side of the inlet pipe and in others the solids can exit near the top either directly into the enclosed solids holding volume as the liquid exits straight out or the solids can be discharged out the end of the inlet pipe into the bigger open space defined by the housing. In the latter case the inside housing wall can have a screen or vanes that slow down the solid particles as the fluid continues to a housing exit and eventually to an exit screen before being discharged to either go to the surface or recirculate back along the outside of the tool to the inlet pipe while picking up additional debris. | 01-16-2014 |