U.S. patent number 3,878,889 [Application Number 05/329,540] was granted by the patent office on 1975-04-22 for method and apparatus for well bore work.
This patent grant is currently assigned to Phillips Petroleum Company. Invention is credited to Ed O. Seabourn.
United States Patent |
3,878,889 |
Seabourn |
April 22, 1975 |
Method and apparatus for well bore work
Abstract
A method and apparatus for re-entering a well bore and working
on said well bore has a fluid diverting element slidably mounted
within a body. The fluid diverting element is movable in response
to an actuating element from a first position at which fluid is
directed substantially only through a port on the side of the body
to a second position at which fluid is directed substantially only
through a second end of the body.
Inventors: |
Seabourn; Ed O. (Norfolk,
EN) |
Assignee: |
Phillips Petroleum Company
(Bartlesville, OK)
|
Family
ID: |
23285884 |
Appl.
No.: |
05/329,540 |
Filed: |
February 5, 1973 |
Current U.S.
Class: |
166/360; 166/154;
166/319 |
Current CPC
Class: |
E21B
34/14 (20130101); E21B 41/0014 (20130101); E21B
21/103 (20130101) |
Current International
Class: |
E21B
21/00 (20060101); E21B 21/10 (20060101); E21B
41/00 (20060101); E21B 34/14 (20060101); E21B
34/00 (20060101); E21b 007/12 () |
Field of
Search: |
;166/.5,.6,154,155,224
;175/5,7,231 |
References Cited
[Referenced By]
U.S. Patent Documents
Primary Examiner: Purser; Ernest R.
Assistant Examiner: Favreau; Richard E.
Claims
What is claimed is:
1. A reentry tool assembly, comprising:
a body having first, second, and middle portions, walls, a
longitudinal opening extending therethrough, and a port opening
through the walls at the first portion, said longitudinal opening
being of a first diameter at the first portion, a second diameter
at the second portion and a third diameter at the middle portion,
said third diameter being larger than said first and second
diameters;
a fluid diverting element having first and second ends, first,
second, and middle portions, walls, a longitudinal opening
extending through the element, and a port opening through the
element walls at the middle portion, said element being slidably
movable in the body between a first position at which the ports are
in fluid communication one with the other and the second and middle
portions of the longitudinal opening of the body are sealed and a
second position at which the port and longitudinal opening of the
element are in fluid communication with the second and middle
portions of the longitudinal opening of the body, the port of the
body is sealed, and the element is within the body;
first means for sealing the second end of the fluid diverting
element and passing fluid from the element port through the annulus
between the element and the middle and second portions of the body
at the second position of the element; and
second means for releasably maintaining the element at the first
position.
2. An apparatus, as set forth in claim 1, wherein the first means
is a cap having first and second end portions, said first end
portion being releasably connected to the second end of the fluid
diverting element and said second end portion having a plurality of
lugs extending outwardly therefrom which are of dimensions
sufficient for preventing the cap from passing into the second
portion of the body.
3. An apparatus, as set forth in claim 2, wherein there are at
least four lugs positioned about the cap at substantially equal
arcuate distances one from the other.
4. An apparatus, as set forth in claim 2, wherein the annulus
defined by the walls of the body, the lugs, and the cap have a
minimum total cross-sectional area at least as great as the total
area of the port of the element.
5. An apparatus, as set forth in claim 1, wherein there are a
plurality of ports formed on the middle portion of the element.
6. An apparatus, as set forth in claim 1, wherein an annular groove
is formed about the outer surface of the element and opened into
the element port.
7. An apparatus, as set forth in claim 1, wherein there are at
least two annular sealing elements positioned in the annulus
between the element and the body on opposed sides of the port of
the body.
8. An apparatus, as set forth in claim 1, wherein the second means
comprises a shear pin extending through the body walls at a
location between the port of the body and a first end of the body
and into the walls of the element at the first position of said
element.
9. An apparatus, as set forth in claim 1, including a deformable
ball;
an annular seat extending into the longitudinal opening about an
inner surface of the element at the first portion of the element,
said annular seat having an inside diameter less than the diameter
of the ball for seating of the ball thereon and passing the ball
therethrough; and
said second portion of the element having a length greater than
about the diameter of the deformable ball.
10. An apparatus for reentry into a well bore, as at the bottom of
the sea which comprises
1. a tubing adapted to be lowered to sea bottom and into a well
bore into the ground under the sea,
2. a lateral port at the lower end of said tubing adapted to
discharge therefrom laterally a fluid under pressure from within
said tubing,
3. an opening at the bottom of said tubing adapted to discharge
downwardly out the bottom thereof a fluid under pressure from
within said tubing,
4. means in one position closing the said opening at the bottom of
said tubing and while in said position permitting fluid to egress
from said lateral port, said means in another position closing said
lateral port and permitting fluid to egress from said opening at
the bottom of said tubing and
5. means actuated by an increase in the pressure in said tubing the
move said first mentioned means from said one position to said
another position.
11. An apparatus according to claim 10 wherein the first mentioned
means includes a hollow, releasably-held, slidable, ported body
adapted to receive therein from the tubing above said first
mentioned means a resilient plugging element adapted to plug the
hollow body against pressure in said tubing above said body, said
body responsive to pressure increase in said tubing being released
and sliding in said tubing to close said lateral port and open said
opening at the bottom of said tubing.
12. A method for positioning an open bottomed drill string for
entry into a well bore in the surface of the ground under water
which comprises:
providing in the lower end of said pipe a section containing a
lateral port and within said section a fluid diverting means
adapted to move within said section to close the end of the pipe
and open the lateral port when in its upper position and to open
the end of the pipe and close the lateral port when in its lower
position,
securing said fluid diverting means in its upper position so that
it will remain in said position until it is desired to allow it to
move to its lower position,
lowering the pipe string downward through said water until the end
of the pipe string is at an elevation adjacent the surface opening
of the well bore,
pumping fluid into said pipe string and out through said lateral
port in an amount sufficient to cause the lower end of the pipe
string to be propelled into alignment with the well bore,
and then applying sufficient force to the fluid diverting means in
said lateral port section of the pipe to force it to move from its
upper position to its lower position thereby closing the lateral
port and opening the end of the pipe string so that fluid may be
pumped out the bottom opening of the pipe string only.
13. A method according to claim 12 wherein the fluid diverting
means is moved from its upper to its lower position by raising the
fluid pressure on the fluid diverting means by blocking off said
fluid diverting means at a point above the lateral port until the
pressure is such that the fluid diverting means breaks loose from
its secured upper position.
14. A method according to claim 13 wherein the fluid diverting
means is blocked off by a deformable ball which will pass through
the upper portion of said fluid diverting means to the lower
portion of said means after the pressure exceeds the amount
necessary to force the fluid diverting means to break loose from
its upper position, said fluid diverting means being designed so
that said ball when in the lower portion of said fluid diverting
means will not prevent fluid from flowing out the bottom end of the
pipe string.
Description
In the art of drilling, working over, and producing wells
positioned beneath the surface of a body of water, it is sometimes
extremely difficult to guide a conduit into the well bore owing to
the current of the water and wind and wave action. After the
conduit is positioned in the well bore, it is then often desirable
to discharge fluid from substantially only the lower end of the
conduit or to move fluid from the well bore through the lower end
of the conduit and upwardly through the conduit to the upper end of
the conduit for the recovery thereof.
This invention therefore resides in a method and apparatus for
reentering and working over a well bore where a fluid diverting
element is slidably mounted within a body. The fluid diverting
element is movable in response to an actuating element from a first
position at which fluid is directed substantially only through a
port on the side of the body to a second position at which fluid is
directed substantially only through a second end of the body.
Other aspects, objects, and advantages of the present invention
will become apparent from a study of the disclosure, the appended
claims, and the drawing.
The drawings are diagrammatic views, in partial section, of the
apparatus of this nvention.
FIG. 1 shows the apparatus associated with a drill stem;
FIG. 2 shows the body of the apparatus;
FIG. 3 shows the fluid diverting element;
FIG. 3A shows an end view of the fluid diverting element;
FIG. 4 shows the apparatus with the element positioned at the first
position; and
FIG. 5 shows the apparatus with the element positioned at the
second position.
Referring to FIG. 1, the re-entry tool assembly 2 is associated at
one end to a conduit 4 and at the other end to a drill bit 6, for
example. The fluid diverting element 8 (see FIG. 3) is at its first
position and fluid is being discharged from the port 10 of the body
12 (see FIG. 2) for aligning the bit with the well bore 14 for
entry into the well bore 14. In the example application shown in
FIG. 1, the well bore is positioned beneath the surface of a body
of water 16. Operation of the assembly 2 and associated equipment
will be later more fully described.
Referring to FIG. 2, a body 12 of the assembly has first, second,
and middle portions 18, 20, 22, walls 24, a longitudinal opening 26
extending therethrough, and the port 10 opening through the walls
24 at the first portion 18 of the body 12.
The longitudinal opening 26 of the body 12 has a first diameter
(D.sub.1) at the first portion 18, a second diameter (D.sub.2) at
the second portion 20 and a third diameter (D.sub.3) at the middle
portion 22 of the body 12. The third diameter D.sub.3 is larger
than said first and second diameters D.sub.1, D.sub.2 for purposes
that will be later more fully described.
Referring to FIG. 3, a fluid diverting element 8 has first and
second ends 28, 30; first, second, and middle portions 32, 34, 36;
walls 38; a longitudinal opening 40 extending through the element
8; and a port 42 opening through the element walls 38 at the middle
portion 36 of the element 8.
Referring to FIGS. 4 and 5, the fluid diverting element 8 is
positioned in the longitudinal opening 26 of the body 12 and is
slidably movable in the body 12 between a first position (see FIG.
4) at which the ports 10, 42 are in fluid communication one with
the other and the second and middle portions 20, 22 of the
longitudinal opening 26 of the body 12 are sealed for passing fluid
through substantially only the ports 10, 42 at the first position
and a second position (see FIG. 5) at which the port 42 and
longitudinal opening 40 of the element 8 are in fluid communication
with substantially only the second and middle portions 20, 22 of
the longitudinal opening 26 of the body 12 and the port 10 of the
body 12 is substantially sealed for discharging fluid substantially
only through the second end 44 of the assembly 2.
Referring to FIGS. 4 and 5, annular sealing elements 46, such as
O-rings, for example, are preferably positioned in the annulus 48
between the element 8 and the body 12 for sealing the annulus at
these locations at both the first and second positions of the
element 8.
If the sealing elements are maintained on the body 12, at least two
of the sealing elements 46 are utilized and positioned at locations
A and B as shown in FIG. 2. The seals 46 can be maintained on the
element 8 in which positions at least 3 of the elements are
utilized and positioned at locations C, D, and E as shown on FIG.
3. It is preferred that the three sealing elements 46 be utilized
as shown on FIGS. 4 and 5 in order to maintain the apparatus of
simple construction.
A retaining means 50, such as, for example, a shear pin, is
associated with the fluid diverting element 8 and the body 12 for
releasably maintaining the element 8 at the first position as will
later be more fully described with respect to the operation of the
apparatus.
Where the retaining means 50 is a shear pin, the shear pin 50
extends through the body wall 24, preferably at a location between
the port 10 of the body 12 and the first end 52 of the assembly 2
and into the walls 38 of the element 8 at the first position of
said element as shown in FIG. 4.
The size of material from which the shear pin 50 is constructed is
dependent upon the preselected force desired for movement of the
element 8 from the first to the second position and can easily be
determined by one skilled in the art. One particularly useful shear
pin is an aluminum rod having a tensile strength of about 42,000
psi.
Referring to FIG. 3, a cap 54, for example, seals the second end 30
of the fluid diverting element 8 for directing fluid from port 42
through the annulus 48 at the middle and second portions 22, 20 of
the body at the second position of the element 8.
The cap 54 has first and second end portions 56, 58. The first end
portion 56 of the cap 54 is releasably connected to the second end
30 of the diverting element 8 by mating threads for example, for
removing a free-dropped actuating element 60 and returning the
diverting element 8 to the first position. The second end portion
58 of the cap 54 preferably has a plurality of lugs 62 extending
outwardly therefrom which are of dimensions sufficient for
preventing the cap from passing into the second portion 20 of the
body 12 and maintaining the apparatus of simple construction. Other
means can be provided such as a stop shoulder extending inwardly
from the body wall 24, but such means to maintain the element 8
within the body 12 at the second position would be subject to
erosion and damage and would result in waste to rebuild or
construct as opposed to the lugs 62 of the cap 54.
As shown in FIG. 3A, it is preferred that there be about 4 lugs
positioned about the cap 54 at substantially equal arcuate
distances one from the other to provide a stable seating of the
element 8 on the body 12.
In order to assure relatively unrestricted flow through the
apparatus at the second position of the element 8, it is preferred
that the annulus defined by the body walls 24, the lugs 62, and the
cap 54 have a minimum total cross-sectional area at least as great
as the total cross-sectional area of port 42.
In order to maintain the element 8 of high strength yet provide for
the passage of relatively large volumes of fluid through its port
42, it is preferred that there be a plurality of ports formed on
the middle portion 36 of the element 8. Further, it is preferred
that an annular groove 64 be formed about the outer surface of the
element 8 and open into the ports 42 formed thereon for assuring
the flow of fluid from port 42 through port 10 at the first
position of the element 8 when the ports 42 and 10 are arcuately
displaced one from the other.
The element 8 can be moved from the first to the second position by
dropping a free-falling actuating element 60 or running an element
on a wire line or conduit, for example. It is preferred, however,
that the actuating element 60 be a deformable ball 60 and that the
diverting element 8 having an annular seat 66 extending into the
longitudinal opening 40 from an inner surface 68 of the element 8.
In this construction, the annular seat 66 has an inside diameter
less than the diameter of the ball 60 for seating the ball thereon
and passing the ball therethrough. Further, it is preferred that
the second portion 34 of the element 8 have a length greater than
about the diameter of the deformable ball 60 in order to prevent
the restriction of flow through port 42.
In the method of this invention, the assembly 2 is connected to a
conduit 4, for example, with the element 8 maintained at the first
position by, for example, the shear pin 50. The conduit 70 is moved
downwardly through the body of water 16 to an elevation adjacent
the elevation of the well bore 14.
As viewed from an underwater television camera, by a diver, or
other means, if the end 72 of the conduit is not aligned with the
well bore 14, fluid is passed downwardly through the conduit 4 and
substantially only outwardly from the body port 10. The force of
the fluid being discharged from the side of the conduit string
moves the lower end 72 of the conduit 4 into vertical alignment
with the well bore 14 at which alignment the conduit 4 is lowered
into the well bore 14 and to a desired location in the conduit as
shown by broken lines on FIG. 1.
The deformable ball 60 is thereafter dropped into the bonduit for
actuating the assembly 2, closing the port 10, and opening the end
72 of the conduit into fluid communication along the length of the
conduit 4. Fluid is thereafter discharged from substantially only
the end 72 of the conduit for drilling purposes, for example, or
into the conduit 4 via substantially only the end 72 recovering
fluid during workovers or producing the well, for example.
An example of the material of the ball and relative dimensions of
the inside diameter of the seat 66 and the outside diameter of the
deformable ball are as follows:
Material of ball:
Solid Hycar butadiene/acrylonitrile copolymer rubber of 80 Shore A
hardness
Outside diameter: 2 5/8 inches
1.D. of seat 66: 2.078 inches
In an example movement of the deformable ball 60, the ball first
seats on the annular seat 66 which terminates flow through ports
10, 42. Fluid pressure can be increased on the ball by pumping
fluid into the upper end of the conduit 4. At a first preselected
force on the ball, the shear pin 50 is severed and the element 8 is
moved to the second position. Fluid is pumped into the conduit 4
and the pressure is increased to place a second preselected force
on the deformable ball 60 which causes the ball to deform, pass
through the seat 66, and be moved into the second portion 34 of the
element 8. With the ball at this position, fluid in the conduit is
in communication with port 42 and fluid can be passed through the
conduit, the annulus 48 and into or from the end 72 of the conduit
4.
Other modifications and alterations of this invention will become
apparent to those skilled in the art from the foregoing discussion
and accompanying drawing, and it should be understood that this
invention is not to be unduly limited thereto.
* * * * *