Expansible chamber devices – Cylinder detail – Cylinder or liner retained in casing by casing closure or...
Reexamination Certificate
2001-03-09
2003-07-08
Look, Edward K. (Department: 3745)
Expansible chamber devices
Cylinder detail
Cylinder or liner retained in casing by casing closure or...
C029S888061
Reexamination Certificate
active
06588318
ABSTRACT:
STATEMENT REGARDING FEDERALLY SPONSORED RESEARCH OR DEVELOPMENT
Not applicable.
FIELD OF THE INVENTION
The present invention relates generally to mud pumps and particularly relates to a system and apparatus for aligning and securing the cylinder liners of such pumps to their respective pumping modules. More particularly, the present invention relates to a hydraulic retention system and apparatus for aligning and securing the cylinder liner. Still more particularly, the system and apparatus include a positive metal to metal locking feature.
BACKGROUND OF THE INVENTION
In extracting hydrocarbons, such as oil and gas, from the earth, on land and subsea, it is common to drill a wellhole into the earth formation containing the hydrocarbons. A drill bit is attached to a drill string, including joined sections of drill pipe, suspended from a drilling rig. As the drill bit rotates, the hole deepens and the string is lengthened by attaching additional sections of drill pipe. During drilling operations, drilling fluid, or “mud” as it is also known, is pumped down through the drill pipe and into the hole through the drill bit. Drilling fluids are used to lubricate the drill-bit and keep it cool. The drilling mud also cleans the bit, and balances pressure by providing weight downhole, as well as bringing up sludge and cuttings from the drilling process to the surface.
Slush or mud pumps are commonly used for pumping the drilling mud. Because of the need to pump the drilling mud through several thousand feet of drill pipe, such pumps typically operate at very high pressures. Moreover, it is necessary for the mud to emerge from the drill bit downhole at a relatively high velocity to lubricate and cool the bit and to effectively remove cuttings from the hole. Lastly, the pressure generated by the mud pump contributes to maintaining a predetermined total downhole pressure, which is necessary to prevent well blowouts.
The pistons and cylinders used for such mud pumps are susceptible to a high degree of wear during use because the drilling mud is relatively dense and has a high proportion of suspended abrasive solids. As the cylinder becomes worn, the small annular space between the piston head and the cylinder wall increases substantially and sometimes irregularly. This decreases the efficiency of the pump. To reduce the effect of this wear, the cylinder typically is provided with a replacable cylinder liner.
It is the usual practice to replace the cylinder liner at end of its useful life. The pump cylinder liner in a duplex pump typically has an average life of 1200 to 1500 pump hours, or about 90 to 100 days. A duplex pump has two reciprocating pistons that each force fluid into a discharge line. The average life of the cylinder liners in a triplex pump is about 500 to 900 hours or about 50 to 60 days of service life at a normal duty cycle. Triplex reciprocating pumps have three pistons that force fluid into a discharge line. These fluid pumps can be single acting, in which fluid is discharged on alternate strokes, or double acting, in which each stroke discharges fluid.
In the course of installing or replacing a cylinder liner, the cylinder liner may become misaligned. Misaligned contact between the metal piston head and the cylinder creates considerable friction, abrasion, and heat. This, in turn, causes the cylinder liner, as well as other various pump parts, such as seals, to be susceptible to an increased rate of wear. In some cases, the frictional forces may even cause the seal to detach from the piston. For these reasons, the alignment of the cylinder liner of such pumps is critical.
Further, changing a cylinder liner in a mud pump is typically a difficult, dirty, and heavy job. Still further, because drilling rig time is very expensive, frequent replacement of cylinder liners causes considerable inconvenience if the system and apparatus for releasing the old cylinder liners and fitting the replacement cylinder liners are slow or difficult to operate. Thus, it is important that the system and method for aligning and securing the cylinder liners may be implemented without undue effort and down-time.
Some original pump designs include a large threaded sledge hammer nut that is hammered on and off to hold the liner in place. Such a system for securing cylinder liners to respective pumping modules is difficult to operate for a variety of reasons, including the involvement of heavy components, the handling of which may be dangerous for operators. These types of systems require considerable strength, skill and reliability of operators, together with the use of heavy tools in confined spaces. Thus, it is difficult to apply a specified torque to within a desired preset tolerance. Further, the securing force is dependent on the extent of wear and the general condition of the securing components.
There are several alternative ways to attach cylinder liners to their respective pumping modules and these may vary according to make of pump in which they are used. One embodiment presently known employs a tapered concentric clamp, while another uses a concentric screw clamping arrangement. The tapered clamp is susceptible to corrosion and wear, which diminish its effectiveness. Other pump designs require large wrenches or impact socket tools to remove large nuts from studs so as to release the retainer. Not only is this not an precise way to load the liner seal, but in some models the rotation effect can dislodge and fail the seal mechanism. In all of these systems, the force securing the cylinder liner is difficult to control, causing the cylinder liner to be susceptible to misalignment.
In still another known design, a replacement device involves removal of some of the original parts and uses hydraulics and belville washers to load, hold, and restrain the liner. This system relies on a spring lock, and therefore the securing force is dependent on the ability of the spring to retain its stiffness against the securing components. In addition, it relies on nuts secured on studs spaced about the circumference of the cylinder. Thus, this system causes the cylinder liner to be susceptible to misalignment arising from unequal securing forces at each stud, which can be caused by unequal tightening of each nut.
Notwithstanding the above teachings, there remains a need to develop a new and improved system and apparatus for retaining and replacing a cylinder liner which overcomes the foregoing difficulties while providing more advantageous overall results.
SUMMARY OF THE INVENTION
The present invention features a hydraulic retention system that includes a hydraulic body attached to the pump module. The body surrounds a hydraulic ram, which bears on the cylinder liner and is adapted to impart a securing force to the cylinder liner. The ram has a secured position achieved upon pressurization of hydraulic fluid contained in a chamber defined between the body and the ram. In the absence of hydraulic pressure, the ram is mechanically held in the secured position by a locking member that engages the body.
The present system provides a metal to metal lock and promotes alignment. The present system makes the task of changing liners easier and much safer due to the lack of a need for high power or dangerous tools, such as sledge hammers. The hydraulic hand pump utilized in the present system is easy and safe, and features precise securing forces. The liner alignment is a advantage of these machines and this design is an improvement on previously known designs.
Thus, the present invention comprises a combination of features and advantages that enable it to overcome various problems of prior devices. The various characteristics described above, as well as other features, will be readily apparent to those skilled in the art upon reading the following detailed description of the preferred embodiments of the invention, and by referring to the accompanying drawings.
REFERENCES:
patent: 2845313 (1958-07-01), Benson et al.
patent: 2963984 (1960-12-01), Rogers
patent: 3438334 (1969-04-01), Schaaf
patent: 3610110 (1971-10-01
Aday James C.
Staggs Mark A.
Conley & Rose, P.C.
Kershteyn Igor
Look Edward K.
National-Oilwell L.P.
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