Abstract: A differential pressure operated blanking tool includes a Y-tool having first and second limbs connected together via a throat. A ball valve is selectively positionable to close one or other limb of the Y-tube against fluid flow. A housing has an opening in one side thereof of a size sufficient to allow the hall to pass through, and an actuator mounted on the second limb and in the housing wherein fluid flow within the tool carries the ball valve through the opening in the housing to a position where the second limb is closed against bias of the actuator. When the fluid flow is removed, the actuator operates to force the ball valve out of engagement with the second limb whereupon the ball passes through the opening in the housing towards the first limb.
Abstract: A differential pressure operated blanking tool comprises a Y-tool (2) having first and second limbs (4, 5) connected together via a throat (6) and a ball valve (9) selectively positionable to close one or other limb of the Y-tube against fluid flow.
Abstract: A switch mechanism is provided for inclusion in a downhole production string located in a wellbore. The switch mechanism includes an electrical power input and at least two electrical power outputs. In addition, the switch mechanism includes an actuator mechanism which is capable of being actuated from a position remote from the wellbore to selectively move between at least two positions. The movement thereby provides a selective electrical connection between the input and one of the outputs when the actuator is in one of the at least two positions.
Abstract: An apparatus for selectively controlling fluid flow. The apparatus includes a body member having a throughbore formed therein. The apparatus also includes at least one bypass port formed in the body member and a rotatable member arranged for insertion and rotation within the throughbore of the body member. The rotatable member in the throughbore creates first and second annular portions. The apparatus further comprises a moveable member, wherein the moveable member is moveable between a first configuration which defines a first fluid flow path between the first and second annular portions and a second configuration which defines a second fluid flow path between the first annular portion and the at least one bypass port. The moveable member is typically moveable between the first and second configurations in response to fluid flow along the first fluid flow path.