Balanced piston toe sleeve
First Claim
1. A valve assembly for a pressure-actuated downhole tool comprising:
- a valve collar, the valve collar having a bore therethrough and including;
a valve cylinder formed in a wall of the valve collar, the valve cylinder coupled to the bore of the valve collar by a balancing port and a test port, the test port including a check valve;
a valve piston positioned within the valve cylinder between the balancing port and the test port, the valve piston fluidly sealing to the valve cylinder and dividing the valve cylinder into a balancing cylinder in fluid communication with the balancing port and an actuating cylinder in fluid communication with the test port, the valve piston being moveable between a closed position and an open position; and
an output port, fluid flow being prevented between the output port and the valve cylinder when the valve piston is in the closed position and fluid flow being allowed between the output port and the valve cylinder when the valve piston is in the open position;
wherein when the valve piston is in the open position the test port is in fluid communication with the output port.
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Accused Products
Abstract
A balanced piston toe sleeve allows a pressure test cycle to be carried out before opening the bore of the toe sleeve to the wellbore. The balanced piston toe sleeve includes a valve assembly in which a valve piston separates a valve cylinder into a balancing cylinder and an actuation cylinder. The actuation cylinder is coupled to the bore through a check valve which allows unidirectional flow into the actuation cylinder. The balancing cylinder is in fluid communication with the bore. After a pressure test cycle, the pressure in the balancing cylinder reduces, while the pressure in the actuation cylinder is retained by the check valve. The valve piston shifts into the open position, allowing fluid flow from the bore to the toe sleeve.
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Citations
18 Claims
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1. A valve assembly for a pressure-actuated downhole tool comprising:
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a valve collar, the valve collar having a bore therethrough and including; a valve cylinder formed in a wall of the valve collar, the valve cylinder coupled to the bore of the valve collar by a balancing port and a test port, the test port including a check valve; a valve piston positioned within the valve cylinder between the balancing port and the test port, the valve piston fluidly sealing to the valve cylinder and dividing the valve cylinder into a balancing cylinder in fluid communication with the balancing port and an actuating cylinder in fluid communication with the test port, the valve piston being moveable between a closed position and an open position; and an output port, fluid flow being prevented between the output port and the valve cylinder when the valve piston is in the closed position and fluid flow being allowed between the output port and the valve cylinder when the valve piston is in the open position; wherein when the valve piston is in the open position the test port is in fluid communication with the output port. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A balanced piston toe sleeve comprising:
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a valve collar, the valve collar having a bore therethrough and including; a valve cylinder formed in a wall of the valve collar, the valve cylinder coupled to the bore of the valve collar by a balancing port and a test port, the test port including a check valve; a valve piston positioned within the valve cylinder between the balancing port and the test port, the valve piston fluidly sealing to the valve cylinder and dividing the valve cylinder into a balancing cylinder in fluid communication with the balancing port and an actuating cylinder in fluid communication with the test port, the valve piston being moveable between a closed position and an open position; and an output port, fluid flow being prevented between the output port and the valve cylinder when the valve piston is in the closed position and fluid flow being allowed between the output port and the valve cylinder when the valve piston is in the open position; wherein when the valve piston is in the open position the test port is in fluid communication with the output port; a generally tubular mandrel having a bore therethrough and an exterior, the mandrel being coupled to the valve collar and forming a continuous fluidly connected bore therewith, the mandrel including an aperture from the mandrel bore to the mandrel exterior; a generally tubular port housing having an interior and an exterior, the port housing being coupled to the valve collar, the port housing defining an opening cylinder between an inner wall of the port housing and the exterior of the mandrel, the opening cylinder fluidly coupled to the output port of the valve collar, the port housing including an aperture from the interior of the port housing to the surrounding wellbore positioned to substantially align with the aperture of the mandrel; an opening piston, the opening piston positioned to slide within the opening cylinder in response to fluid pressure within the opening cylinder when fluid pressure is introduced therein via the output port of the valve collar, the opening piston including at least one piston aperture. - View Dependent Claims (8, 9, 10, 11, 12, 13)
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14. A method comprising:
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positioning a balanced piston toe sleeve on a tool string, the balanced piston toe sleeve including; a valve collar, the valve collar having a bore therethrough and including; a valve cylinder formed in a wall of the valve collar, the valve cylinder coupled to the bore of the valve collar by a balancing port and a test port, the test port including a check valve; a valve piston positioned within the valve cylinder between the balancing port and the test port, the valve piston fluidly sealing to the valve cylinder and dividing the valve cylinder into a balancing cylinder in fluid communication with the balancing port and an actuating cylinder in fluid communication with the test port the valve piston being moveable between a closed position and an open position; and an output port, fluid flow being prevented between the output port and the valve cylinder when the valve piston is in the closed position and fluid flow being allowed between the output port and the valve cylinder when the valve piston is in the open position; wherein when the valve piston is in the open position the test port is in fluid communication with the output port; a generally tubular mandrel having an interior and an exterior, the mandrel being coupled to the valve collar forming a continuous fluidly connected bore therewith, the mandrel including an aperture from the interior of the mandrel to the exterior of the mandrel; a generally tubular port housing having an interior and an exterior, the port housing being coupled to the valve collar, the port housing defining an opening cylinder between an inner wall of the port housing and the exterior of the mandrel, the opening cylinder fluidly coupled to the output port of the valve collar, the port housing including an aperture from the interior of the port housing to the surrounding wellbore positioned to substantially align with the aperture of the mandrel; an opening piston positioned to slide about the mandrel, the opening piston positioned to slide within the opening cylinder in response to fluid pressure within the opening cylinder when fluid pressure is introduced therein via the output port of the valve collar, the opening piston including at least one piston aperture; running the tool string into the wellbore with the valve piston and the opening piston in the closed positions; pressurizing the bore of the tool string in a pressure cycle so that fluid enters the balancing cylinder through the balancing port and the actuating cylinder through the test port via the check valve; bleeding the pressure from the bore of the tool string, so that the pressure decreases in the balancing cylinder while the pressure remains in the actuating cylinder; allowing the valve piston to move in the valve cylinder from the closed position to the open position, thereby opening fluid communication between the bore and the output port; and flowing fluid through at least a portion of the valve cylinder in fluid communication with the bore and into the output port; and allowing the opening piston to move to an open position in the opening cylinder. - View Dependent Claims (15, 16, 17, 18)
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Specification