Electricity: conductors and insulators – Conduits – cables or conductors – Conductive armor or sheath
Reexamination Certificate
2000-01-24
2002-05-21
Nguyen, Chau N. (Department: 2831)
Electricity: conductors and insulators
Conduits, cables or conductors
Conductive armor or sheath
C385S113000
Reexamination Certificate
active
06392151
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The invention is related to the field of armored electrical cables used for downhole well logging. More specifically, the invention is related to designs for a well logging cable including optical fibers for signal communication.
2. Description of the Related Art
U.S. Pat. No. 5,495,547 issued to Rafie et al and assigned to the assignee of this invention describes limitations in the signal carrying capacity of electrical well logging cables which have only electrical conductors. The Rafie et al '547 patent discloses a well logging cable having optical fibers which can substitute for one or more of the electrical conductors in a well logging cable to increase the signal carrying capacity.
As is understood by those skilled in the art, well logging cables typically include one or more electrical conductors and armor wires which are wound around the conductors in a pattern designed to maintain a substantially round cross-sectional shape of the cable under repeated applications and relaxations of high axial tension to the cable, while also subjecting the cable to significant bending stresses. Repeated application and relaxation of axial tension and bending stresses occurs mainly as a result of lowering well logging instruments into a wellbore and later removing them from the wellbore by spooling the logging cable through various sheaves which direct the cable into the wellbore. The well logging cables known in the art having only electrical conductors provide good maintenance of the round cross-section of the cable because all of the conductors have similar tensile and bending properties.
Direct substitution of electrical conductors with optical fibers to provide a logging cable having optical fibers can result in the cable having asymmetrical tensile and bending properties, and possibly reduced resistance to deformation of the circular cross section of the cable. This can be the case even where the optical fibers are enclosed in a steel tube, as disclosed in the Rafie et al '547 patent. Furthermore, some types of well logging cables have only one electrical conductor. The electrical conductor in one conductor well logging cables is generally straight and has helically wound armor wires surrounding it. The single conductor is straight just as is the center conductor in a multi conductor well logging cable. The optical fiber/steel tube combination disclosed in the Rafie et al '547 patent is generally not applicable for conductors in the center position in multi-conductor logging cables because of the large axial strain which normally occurs on a “straight” conductor when tension is applied to the cable. For example, a combination fiber-optic/electrical well logging cable having the optical fiber enclosed in a steel tube is disclosed in U.S. Pat. No. 4,522,464 issued to Thompson et al, wherein the optical fiber enclosed in the steel tube is disposed in the center conductor position of a multiple-conductor well logging cable. A drawback to the cable disclosed in the Thompson et al '464 patent is that the steel tube used to enclose the optical fiber is subject to inelastic strain and eventual failure as a result of repeated applications and relaxations of axial tension to the cable. The tube, which is positioned in the center of the cable as disclosed in the Thompson et al '464 patent, is subject to greater axial elongation (strain) under tension than the armor wires since the armor wires are helically wound around the axis of the cable whereby elongation of the cable under tension is at least partially dissipated by unwinding of the helical lay of the armor wires as contrasted to the tube which elongates to the same degree as the change in length of the cable under tension.
Excessive axial strain on the tube may also affect another combination fiber optic/electrical well logging cable disclosed in international patent application number WO 94/28450 published under the Patent Cooperation Treaty. The cable disclosed in the WO 94/28450 application also includes an optical fiber enclosed in a metal tube positioned at the center of the cable.
At least one reference suggests using plastic instead of steel for a tube to enclose the optical fiber in a well logging cable. Plastic can have greater strain capacity to a center-located, or a single optical fiber than steel. A plastic tube, without more, is insufficient to provide optical fiber capability to a well logging cable. Another type of combination fiber/optic electrical well logging cable described in “Manufacturing and testing of armored fiber optic downhole logging cable” by Randall et al, Wire Journal, September 1980 provides a plastic-sheathed optical fiber to replace one or more of the electrical conductors in a conventional logging cable. The cable in the Randall et al article has proven commercially unacceptable for well logging because the optical fiber is subject to fluid pressure in the wellbore, since the plastic sheath around the fiber is not pressure sealed. The plastic tubing may be filled with oil in order to exclude wellbore fluids from entering the tube under hydrostatic pressure, but plastic tubes may not provide enough resistance to crushing under high bending stress or high lateral force applied to the cable.
SUMMARY OF THE INVENTION
The invention is a well logging cable including an optical fiber and a pressure sealed enclosure surrounding the fiber. The enclosure is adapted to be able to be elongated to the maximum expected axial strain on the logging cable without permanent deformation. In a preferred embodiment, the enclosure consists of a corrugated-wall steel tube. The steel tube contains toroidally shaped steel support rings within the maximum diameter portions of the corrugations in the tube wall to prevent crushing the tube under lateral “crushing” stress. The cable includes armor wires wound around the corrugated-wall tube. In the preferred embodiment of the invention, the corrugated wall tube is surrounded by an elastomeric jacket, and the tube is filled with hydraulic oil or the like to prevent entry of wellbore fluids into the tube under hydrostatic pressure.
The corrugations in the wall of the tube provide the wall of the tube with enough length relative to the expected axial strain of the logging cable so that the tube remains within its elastic limit at the maximum expected axial strain on the cable.
In another embodiment of the invention, the enclosure is a helically wound steel wire. The steel wire provides crush resistance to the optical fiber. The spacing at zero axial stress between the coils of the helically wound steel wire is the minimum to prevent coil bind at the minimum bending radius of curvature of the cable. The helically wound steel wire can be surrounded by an elastomeric jacket. The jacket can be filled with hydraulic oil or the like to prevent entry of wellbore fluids under hydrostatic pressure.
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Eric N. Randall et al.; Manufacturing and testing of armored fiber optic downhole logging cable, Sep. 1980, Wire Journal, pp. 166-168.
Lopez Josephine
Rafie Saeed
Madan Mossman & Sriram P.C.
Nguyen Chau N.
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