NO862981L - DEVICE CUTTING DEVICE. - Google Patents

Abstract

A device (1) for cutting a drill pipe from a well casing includes a housing (2) for an explosive charge to be placed in a well casing adjacent to a drill pipe, and means (3) for centering the device (1) in the well casing (4). ) under varying diameter of the casing. Variations in the diameter of the casing are shown at x and y ..

Description

The present invention relates to a device for cutting

of neck tube.

Streams such as subsea wells for the extraction of fossil fuel deposits such as oil and/or gas are often drilled and then capped when they prove to be uneconomic. In such a case, it is often necessary to cut a casing from the well, so that there are no underwater residues sticking up from the seabed. However, such neck tubes can be up to around 24 cm thick.

Cutting or splitting a shale structure in an often inhospitable environment can represent serious problems, not the least of which is satisfying the need to place a cutting agent, usually an explosive charge, precisely in a well casing which may have varying internal diameters.

It is consequently among the objects of the invention to increase and decrease these disadvantages.

According to the invention, there is provided a device for cutting a weight pipe from a well casing, including a housing for an explosive charge, where the housing is adapted for insertion into a cylindrical well casing next to a weight pipe, and devices connectable with one end of the casing for essentially to center the housing in the well casing.

When using the invention, it is possible to locate the device by a wireline operating system down the hole.

The centering device may include compliant devices adapted to be radially elastic in order to

take variations equal to the diameter of a well drill pipe.

There may be two elastic devices, a first one is at one end of the housing, and* another at an axially opposite end of the housing, whereby the two elastic devices are axially spaced apart from the device.

One or both of the resilient means may include spaced curved band spring means carried on an elongate member.

The first compliant means may include two pairs of curved band means, and the pair may be on diametrically opposite sides of the elongate member, the opposite ends of the spring means being secured to respective rings surrounding the elongate member, one of the rings being attached and the other sliding on the oblong element.

The sliding ring may be between two further fixed rings, and a spiral spring may surround the elongated element between one of the further rings and the sliding ring, and a spiral spring may surround the elongated element between the other of the further rings and the sliding ring.

The curved band spring arrangement can be rotatably attached to the resp. calls.

The curved band spring means can be secured by a spring band means surrounding the fixed ring.

The second compliant device may include two pairs of curved band spring devices, the pair being on diametrically opposite sides of the elongate element, where the opposite sides of the spring devices are attached to resp. rings surrounding the elongate member, one of the rings being fixed and the other being slidable on the elongate member, and means on the elongate member for adjusting the first position of the slidable ring to thereby set the maximum transverse extension of the curved strip device.

The adjustment device can include a ring which has locking means whereby the ring can be locked in any desired position along the length of the elongated element.

The ends of the curved spring device can be secured to the fixed one

ring when shrinking.

The elongate member may include a mandrel which carries electrical connections for the device.

The mandrel may include a steel body with an internal elongated brass rod electrically insulated therefrom.

The brass rod can be coaxial with the steel body.

There may be plug means which connect the housing to the respective elongated element of the first and second centering device, and each plug means may have two cylindrical parts of different diameters to thereby provide plug and socket connections with the centering device and the housing.

The device may include crossing devices to connect the apparatus with a suspension system for wire rope operations.

The crossing devices can be mounted at one end of the mandrel at a distance from the housing.

There may be an elongated extension member between the housing and the mandrel, the extension member housing a detonator.

The plug member can form a connection with the housing, and the first filtering device can include one or more vents whereby pressure waves and/or water in the well drill pipe can be dispersed or dissolved by detonation of the explosive charge.

The device for cutting a neck tube is described in the following through an example with reference to the attached drawings. Fig. 1 is a schematic side view of an embodiment of the kuttan arrangements for neck tubes according to the invention; Fig. 2 is on an enlarged scale a side view of a first centering device of the device; Fig. 3 is a partial longitudinal section of a first, or lower, plug of the device in fig. 1 and on a larger scale; Fig. 4 is a side view, partly in longitudinal section, of a housing of the device in fig. 1, and on a larger scale with the lower plug and an upper plug in position;

Fig. 5 is a side view, partly a longitudinal section, of a second,

an upper plug of the device and as in fig. 4;

Fig. 6 is a side view, partly a longitudinal section, of a mandrel of the device according to fig. 1, and on a larger scale than that figure; Fig. 7 is a side view, partly in longitudinal section, of a crossover body for use in the device according to fig. 1, and on a larger scale than in that figure; Fig. 8 is a side view of a second centering device of devices according to fig. 1, and on a larger scale than the figure Fig. 9 is a side view, partly in longitudinal section, of an end piece for use in the device in fig. 1, and on a larger scale than that in fig. 1; and Fig. 10 is a side view, partly in longitudinal section of a modified device according to the invention.

The drawings show a device 1 for cutting a weight pipe from a well casing, including a housing 2 for an explosive charge to be located in a well casing next to a weight pipe and devices 3 for centering the device 1 in a well casing 4 above varying diameter of this. Variations in the casing diameter are shown by X and Y in fig. 1.

The centering device 3 in the embodiment shown includes

two compliant devices spaced from each other at the housing 2, where the first or lower (in use) compliant device 5 is connected to the housing by a first or lower (in use plug 6) at one end of the housing 2, which is tubular and the second or upper column device 7 is connected to the housing 2 at the opposite (or upper in use) end by a second or upper plug 8. The second compliant device is mounted on a mandrel 9, which itself carries a crossing body or tool 10 of device 1.

The device 1 thus includes in order when starting from the lower (in use) end, the first compliant device 5, the lower plug 6, the housing 2, the upper plug 8, the mandrel 9 with the second compliant device 7, and the crossover body 10. The crossing body 10 connects the device with a wire operating system (not shown) which can be of any standard type, in order to locate the device 1 down the hole, i.e.

e.g. down in an oil or gas flow.

There is also an end piece 11 including an igniter or detonator in the housing up to the upper plug 8, (fig. 9). The end piece 11 is effective with an electrical bayonet connection from part to part of the device, and is thus provided with an earthed return through the device.

The lower compliant device 5 (Fig. 2) includes a central rod 12' on which are secured three spaced rings 12, 13 and 14, and a movable ring 15. Two spaced spring devices, each in the form of a pair of outwardly curved leaf springs 16, is rotatably secured between the rings 12 and 15. There is a spiral spring 17 which surrounds the rod between the rings 13 and 15, and another spiral spring 18 which surrounds the rod 12' between the rings 15 and 14. The rings and the rod are made of a suitable material such as steel.

in

The lower plug (Fig. 3) is made of suitable material such as steel and has a body with a conical truncated nose portion 19, and a generally cylindrical portion 20 with transversely threaded holes 21 which are aligned with holes in the housing when cylindrical part of the plug is inserted into it with a shoulder 22

in connection with the free lower end of the house. Screws or similar fasteners can then be inserted and screwed in completely to secure the plug 6 and the housing 2 together. Likewise, the truncated .^conical nose 19 has a liner 23 with sliding wedges to receive a sliding wedge end 24 of the rod 12, in which there is a transverse hole 25 for a fastening device such as a screw. The end 24 of the rod 12 ends against an inclined shoulder 26 in the bore 23, which leads to a bore part 27 of smaller diameter, which in itself leads to a conical part 28, where this nose leads to a ventilation hole 29 which runs along the longitudinal axis of the plug to the surface 30 of the part 20. The ventilation hole 29 communicates via the bore parts 28 and 27 with a ventilation hole 31 which extends from the outer surface 32

of the truncated conical nose 19 to the sliding wedge portion of the bore. Since the bore is arranged as a sliding wedge, the passage between the upper surface 30 and the surface 32 is always fluid. The plug is essentially cylindrical under a shoulder, with the exception of two surfaces 33 which help in inserting the plug into the housing.

The upper plug 8 (fig./5) is a hollow rod of suitable material such as steel. It has an end 34 for insertion into the upper (in use) end with a shoulder 35 for abutment against the free upper end of the housing 2, and diametrically opposed threaded holes 36 to receive fasteners such as screws inserted through the hole in the housing 2 aligned with the holes 34 when the housing 2 and the upper plug 8 are fitted.

The opposite end of the upper plug has an internal configuration for receiving the breech block 11 (see Fig. 9), which includes a firing pin, and an external configuration for receiving a lower (in use) end of a drill 9, which main functions to carry the upper centering device and to provide an outer surface between the guide body 10 and the cutting tool (the housing 2 and its

content) of the device.

The mandrel 9 has an internal design 37 at one end to fit around the upper plug 8 and end piece 11, and a design 38 at the other end to receive the crossing device 10

(Fig. 7). The mandrel includes a steel tube with a central brass rod isolated from the tube and thereby improving the electrical connection from the crossing body 10 to the end piece 11 and the explosive charge. Mounted on the outer surface of the mandrel is the second compliant device, or the upper centering device 7 (Fig. 8). This includes two opposing spring devices, each in the form of two essentially parallel leaf springs 39 which are curved outwards. The springs 39 are attached at one end by screws 33 to a ring 40 which rests against a ring or collar 41 on the mandrel, and at the opposite end by screws 44 to a collar 42 which is slidable on the mandrel 9. The ring 42 is adjustable in longitudinal position of the mandrel 9. The collar 41 has a hole 45 to receive a fastener such as an Allen screw. Collars 41 are slid along the mandrel to the correct axial position to give the correct length for the correct outer diameter or transverse extension of the springs 39 for the particular inner bore diameter and are locked in this position using Allen keys. The springs 39, the ring 40 and the collar 41 can then slide upwards away from each other, but not towards each other, and can thus go to a smaller external diameter, but not to an excessively large external diameter and thus cannot get stuck in the hole as described in more detail below.

The device 1 is thus essentially a series of aligned elements essentially secured together by plug and socket connections, symmetrical about a common longitudinal axis, which provides a coherent, integrated structure in line.

The outermost transverse extension of the leaf springs 16 and 39 (which are arranged symmetrically around the axis of the device) is such that they can rest against the inner surface of the wellbore pipe 4 in order to center the device therein particularly at the position aligned with the weight pipe ( not shown). As the device 1 is lowered into the casing 4, the centering device 5 and 7 will contract and expand so that the device 1 can pass through the narrowest part of the bore while it is still centered in this. This contraction and expansion is permitted by the rings 15, 40 and 42, which slide along the respective rods 12' or mandrel 9 as the leaf springs 16 or 39 are pressed inwardly, against the axis of the device, to accommodate the inward bending of the springs when the springs impinge on a narrowing of the current bore. When the narrow portion is passed, the springs 16 and 39 bend outwards again due to their inherent elasticity, and are relieved in the case of the lower centering device by the coil springs 17 and 18.

The device 1 can thus pass through the narrowest bore of the well casing, but is always centered in the bore, even at its widest part. This ensures that when the explosive charge is detonated, the explosive force is distributed evenly around the device across the well casing to split this casing. A device incorporating the invention can split a neck tube up to about 24 cm thick. The ventilation device 2 9 of the lower plug leaves the ventilation of fluid, such as seawater, in the event of an explosion in order to seek and avoid the build-up of back pressure in the event of an explosion.

Reference is made to fig. 10, where the device 100 is similar to the device 1, and functions in a similar way. However, it has an extension element 101 between the housing 2 and the upper plug 8, which are themselves connected in turn to the mandrel 9, and accommodates the end piece 11. The end piece 11 is connected by a heating wire 102 to a detonator 103 in the extension -ses element 101, where the detonator is the space in the hollow interior of the extension element 101. The extension element 101 has an i "plug" 10 4 of reduced diameter which accommodates a catch cap 105 to ignite the fuse and detonate the charge in the housing 2. grounding wires 106 are connected to the extension element 101 for the detonator 10 3.

Other modifications can of course be carried out. F.

e.g. the springs 16 in the lower centering device 5 can be attached to the ring 12 in a different way to the white screws. Thus, the ring can instead have a groove at the end of each spring 16 with a circumferential spring band that holds the springs 16 in position. Furthermore, the springs 39 can be attached to the rings 40 by arranging longitudinal grooves in the rings which receive the ends of the springs 39 in the grooves and twist the edges of the springs and grooves, by e.g. is crimped over, to keep the springs physically in position.

The device shown and described with reference to the drawings is also capable of withstanding very high temperatures and pressures, while its performance closely corresponds to the thickness of the target, i.e. the diameter of the collar to be cut.

It should be understood that the device comprises a set of parts including the individual components described above. ,

Claims (16)

1. Device for cutting a weight pipe for a well drill pipe, characterized by a housing (2) for an explosive charge, in that the housing (2) is adapted for insertion in a mainly cylindrical well casing pipe (4) next to a weight pipe, and by devices (3) connectable to one end of the casing (2) essentially to center the housing (2) in the well casing (4). 2. Device according to claim 1, characterized in that the centering device (1) includes flexible devices (5,7) arranged to bend radially in order to thereby accommodate variations in the diameter of the well drill pipe (4). 3. Device according to claim 2, characterized by a first compliant device (5) at one end of the housing (2) and by a second compliant device (7) at an axially opposite end of the housing (2). 4. Device according to claim 3, characterized in that the compliant devices (5) include spaced curved band spring devices (16) carried by an elongated element (12') and the compliant device (7) includes spaced curved band spring devices (39) carried of an elongated element (9). 5. Device according to claim 4, characterized in that the first flexible device (5) includes two pairs of curved band spring devices (16), that the pairs (16) are on diametrically opposite sides of the elongated element (12), that the opposite ends of the spring device (16) is attached to resp. rings (12, 15) which surround the elongated element (12') that one of the rings (12) is attached to the elongated element (12') and that the other of the rings (15) is slidable on the elongated element (12 '). 6. Device according to claim 5, characterized in that the sliding ring (15) is between two further rings (13, 14), that a spiral spring (17) surrounds the elongated element (12') and is between one of further rings (13 ) and the sliding ring (15), and by a spiral spring (18) which surrounds the elongated element (12') and is between the sliding ring (15) and the other of the outer rings (14). 7. Device according to claim 6, characterized in that the curved band spring devices (16) are rotatably secured by their respective opposite ends to the resp. calls (12, 15) . 8. Device according to claim 6, characterized in that the curved band spring devices (16) are attached to a spring band device which surrounds the fixed ring (12). 9. Device according to one or more of claims 4 to 8, characterized in that the second compliant device (7) includes two pairs of curved band spring devices (39), that the pairs (39) are on diametrically opposite sides of the oblong element (39), that the opposite ends of the spring device (39) are secured to resp. rings, (40,42) which surround the elongated element (9), that the ring (42) is fixed, that the ring (40) is slidable on the elongated element (9), and in the case of devices (41) on the elongated element ( 9) for adjusting the first position of the sliding ring (4) to thereby set the maximum transverse expansion of the curved belt device (39). 10. Device according to claim 9, characterized in that the adjustment device includes a ring (41), and that the locking ring (41) has locking devices (45) whereby the ring (41) can be locked in any desired position along the length of the elongated element (9). in - 11. Device according to claim 9 or 10, characterized in that the ends of the curved spring device (39) are attached to the fixed ring (42) by shrinking. 12. Device according to one or more of claims 9 to 11, characterized in that the elongated element (9) includes a mandrel that carries electrical connections to the device (1), and in that the mandrel (9) includes a steel body with an internal oblong brass rod electrically isolated from this. 13. Device according to one or more of the preceding claims, characterized by "plug devices (6, 8) which connect the housing (2) with the respective elongated elements (9, 12') of the first and second filtering device (5, 7) , and that each plug device has two cylindrical parts of different diameters to thereby provide plug and socket connections with centering device (5, 7) and the housing (2). 14. Device according to one or more of the preceding claims, characterized by crossing devices (10), for connecting the device (1) with a suspension system for cable operations, mounted at one end of the mandrel (9) at a distance from the housing (2) ). 15. Device according to one or more of claims 3 to 14, characterized in that an elongated extension element (100) is placed between the housing (2) and the mandrel (9) and with a detonator (103) in the extension element (100). 16. Device according to one or more of claims 13 to 15, characterized in that the plug device (6) has ventilation devices (29) whereby pressure waves and/or water in the well drill pipe (4) are dispersed or dampened by detonation of the explosive charge. é