Wells – Processes – Operating valve – closure – or changeable restrictor in a well
Reexamination Certificate
2000-03-09
2001-04-24
Bagnell, David (Department: 3672)
Wells
Processes
Operating valve, closure, or changeable restrictor in a well
C166S193000, C166S318000, C166S386000
Reexamination Certificate
active
06220360
ABSTRACT:
BACKGROUND OF THE INVENTION
The present invention relates generally to a ball drop tool, and more particularly to a ball drop tool to be connected in a tool string lowered into a wellbore with coiled tubing.
In the drilling and completion of oil and gas wells, a wellbore is drilled into the subterranean producing formation or zone of interest. A string of pipe, e.g., casing, is typically then cemented into the wellbore. Oftentimes, a second string of pipe, commonly referred to as a liner, is attached at the lower end of the casing and extends further into the wellbore. Casing, when referred to herein, includes liners. A string of additional pipe, known as production tubing, is often lowered into the casing and/or the liner for conducting produced fluids out of the wellbore.
It is often necessary to lower downhole tools, such as packers or other tools into the casing, liner or production tubing to perform a desired operation. Many known downhole tools, such as but not limited to hydraulic disconnects, circulating subs and inflatable packers require a ball to be displaced down a tool string to engage a ball seat disposed in the tool. Typically, pressure is applied after the ball engages the seat to activate a mechanism in the tool. For example, with an inflatable packer, the ball may engage a seat to direct fluid into the inflatable elements of the packer, so that the packer will engage the casing, liner or production tubing. The foregoing are merely examples and there are a number of known tools that utilize and require a ball to engage a ball seat so that pressure can be applied in the tool above the seat to activate a mechanism in the tool string.
Coiled tubing is rapidly becoming a popular conveyance method for downhole tools, and the use of dropped balls to engage a seat in a tool lowered into the wellbore with coiled tubing is becoming more and more common. When coiled tubing is utilized to lower a tool into a wellbore, and it is necessary to drop a ball to engage a seat in the tool, the ball normally is manually inserted into the surface plumbing for the coiled tubing, so that the ball enters the coiled tubing at, or near the end of the tubing connected to the surface plumbing. The ball therefore enters the coiled tubing so that it must be pumped through the coiled tubing wraps on the reel, until it passes over a gooseneck which is utilized in connection with the coiled tubing. Pumping then continues for a period of time to insure that the ball has made its way through the coiled tubing to the seat in the downhole tool. Although such a method works in many circumstances, there are several drawbacks to this method.
The method described above for displacing a ball through coiled tubing is time-consuming and costly. It requires the usage of a large volume of fluid since at least one displacement volume of the coiled tubing is needed to get the ball around the wraps and to the downhole tool. Occasionally, balls are caught in the coiled tubing and never make it to the tool. For example, when small diameter balls are used in large coiled tubing, it is difficult to achieve a fluid velocity which will carry a small diameter ball through the wraps on the reel.
In addition, there are times when downhole devices above the ball seat have restrictions which would prevent a ball from passing therethrough to the ball seat in the tool. For example, filter screens are often run downhole to keep debris from plugging off small passages in the tools below. Actuating balls cannot pass through the screens. Likewise, it is possible that a tool having a small diameter would be positioned above the ball seat and thus would prevent the ball from passing therethrough. The present invention addresses the above needs by providing a downhole ball drop tool that can be positioned in the tool string below the coiled tubing and if necessary below any tools with restrictive diameters, and above the seat in the tool such that the ball does not have to pass through the coiled tubing wraps.
SUMMARY OF THE INVENTION
The present invention is a ball drop tool for use with coiled tubing which provides a method for dropping a ball into a downhole tool to engage a ball seat in the tool without the necessity of displacing the ball through the coiled wraps in a reeled coiled tubing. The ball drop tool comprises a ball drop housing having an upper end adapted for connection to a length of coiled tubing. The housing has a longitudinal opening therethrough and has a ball drop cage disposed therein. The ball drop cage has a closed upper end and an open lower end. A ball is disposed in the ball drop cage. A rocker arm having an upper end and a lower end is pivotally connected to the ball drop cage.
The ball drop tool may be connected to a lower end of the length of coiled tubing and lowered into the wellbore as part of a tool string having a ball seat therein. The ball drop tool has a retaining position and a releasing position. In the retaining position, the rocker arm is rotated such that a lower end of the rocker arm is positioned in an opening defined by the ball drop cage. The ball is trapped between the rocker arm and the closed upper end of the ball drop cage so that it cannot pass downwardly into the ball seat therebelow. The tool string can be lowered into a wellbore and once it has reached a selected location, fluid flow can be increased so that a flow, or pressure sufficient to begin to urge the ball drop cage downwardly in the ball drop housing is reached. The fluid will act on the upper cap and will also act on the balls through openings defined in the upper cap to cause the ball drop cage to begin to move downwardly in the ball drop housing. The rocker arm will pivot so that the lower end thereof is retracted from the opening defined by the ball drop cage. Once this occurs, the ball will be released and allowed to pass downwardly through the ball drop tool and into the tool having the ball seat disposed therein. Pressure can then be increased to activate any mechanism associated with the ball drop seat and ball.
Numerous objects and advantages of the invention will become apparent to those skilled in the art when the following detailed description of the preferred embodiment is read in conjunction with the drawings which illustrate such embodiment.
REFERENCES:
patent: 1518865 (1924-12-01), McKissick
patent: 4491177 (1985-01-01), Baugh
Connell Michael L.
Tucker James C.
Bagnell David
Halliburton Energy Service,s Inc.
Hawkins Jennifer M
Kent Robert A.
Rahhal Anthony L.
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