AU629199B2 - A side pocket mandrel - Google Patents

Description

Ii OPI DATE 25/08/89 w AOJP DATE 28/09/89 APPLN. ID 30414 89 PCT NUMBER PCT/US89/00295

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INTERNATIONAL APPLICATION PUBLISHED UNDER THE PATENT COOPERATION TREATY (PCT) (51) International Patent Classification 4 (11) International Publication Number: WO 89/ 07189 E21B 23/03 Al (43) International Publication Date: 10 August 1989 (10.08.89) (21) International Application Number: PCT/US89/00295 (81) Designated States: AU, BR, DE (European patent), FR (European patent), GB (European patent), IT (Euro- (22) International Filing Date: 24 January 1989 (24.01.89) pean patent), JP, NL (European patevt), NO, SU.

(31) Priority Application Number: 151,654 Published With international search report.

(32) Priority Date: 3 February 1988 (03.02.88) Before the expiration of the time limit for amending the claims and to be republished in the event of the receipt (33) Priority Country: US of amendments.

(71X)(72) Applicant and Inventor: CRAWFORD, William, B, [US/US]; 14135 Champions Drive, Apt 113, Houston, TX 77069 (US).

(72) Inventor: DE CUIR, Perry, Sr. P,O. Box 721, New Iberia, LA 70561-0721 (US).

(74) Agent: MOSELEY, David, Dodge Bush Moseley, 950 Echo Lane, Suite 180, Houston, TX 77024 (US).

(54) Title: "XSLQTMA-S-&tNL-A -PI.U-4V- -t b q si e- rn cv-%reA (57) Abstract In accordance with illustrative embodiments of the present invention, a side pocket mandrel includes an orienting sleeve having guide surfaces (36) that lead to a longitudinal slot (37) which forms, together with an adjacent longitudinal recess in the mandrel, a T-shaped channel that cooperates with projections 71) on the arm (66) of a kickover tool to precisely align the gas lift valve (56) with the receptacle bore (16) in the mandrel. The kickover tool includes an assembly of pivotally mounted upper (61) and lower (66) arms with the lower arm (66) being pivoted to the tool body, The lower arm includes a locating finger and transversely extending projections (70) that engage and slide in a T-shaped channel (37) of the mandrel to achieve precise alignment of the valve with the receiver bore (16).

II i j Iill CI--- -1- The present invention relates generally to side pocket mandrel, and more particularly to a new and improved side pocket mandrel having a unique channel and orienting sleeve combination for positively orienting and actuating a kickover tool being moved through the mandrel.

Side pocket mandrels are used extensively in producing oil wells in connection with artificial lift operations such as gas lift. A series of mandrels are spaced vertically in the production string of tubing that extends down into the well, and each mandrel has an offset pocket that is arranged to receive a gas lift valve that can be placed therein, and removed therefrom, through use of a wirelike kickover tool. The kickover tool generally has an articulated arm assembly that is pivotally attached to an elongated tray, and an orienting and trigger mechanism that cooperates with a slot and shoulder in a "mule-shoe" orienting sleeve to rotationally orient the arm assembly with respect to the side pocket, and to release the arm assembly to pivot outward so that a flow control device coupled thereto can be inserted into the pocKet. Once the flow control is latch in place, the arm assembly is released therefrom to permit the kickover tool to be removed from the well. Various United States Patents which illustrate typical prior devices are 2,824,525, 3,268,006, 3,741,299, 3,802,503, 4,106,563 and 4,106, 564. More recent improvements in the art are disclosed in WO-A-86/03344.

In this art, reliability of tool performance downhole il of critical importance. Since the mandrel may be located thousands of metres below the earth's surface, a kickover tool malfunction which results in an inability to set to remove a flow control device can cause vei y time consuming and costly workover procedures to have to be undertaken. As in many other mechanical S" "arts, reliability of downhole performance is often directly related to the degree of simplicity of tool design, because the number of possible malfunctions usually increases with complexity, Thus there is a continuing need in this art for equipment of simple and reliable design.

30 A preferred object of the present invention is to provide a new and improved side pocket mandrel having an orienting sleeve and channel construction that provides improved reliability of kickover tool operation and s il 920729,kayspe.OO 1,304 14.cla, -2performance.

According to a first aspect of the present invention there is provided a side pocket mandrel comprising: an elongated, generally tubular body having means at its opposite ends for connecting said mandrel in a pipe string, said body having a main bore and a receptacle laterally offset to the side of said main bore for receiving a flow control device, an orienting sleeve fixed in said body and having guide surfaces leading to a longitudinal slot characterised in that longitudinally extending channel means is provided adjacent said slot for causing the arm of a kickover tool to be held in an extended position as the kickover tool is moved within said bore of said mandrel and in that said receptacle and said sleeve are located adjacent respective opposite endc of said body.

The kickover tool preferably has an upwardly extending, outwardly biased arm assembly that is pivotally mounted on an elongated tray. The arm assembly includes a lower arm having a locater finger on its upper end, and oppositely directed projections located irnmediately below the finger. The lower arm is biased outward, so that as the tool is moved upward through the mandrel, the finger engages one or the other of the helical surfaces on the orienting sleeve to cause the arm to be rotationally oriented to a predetermined position. The projections then enter the channel which extends outside of the sleeve slot so that the arm is positively held in an outer position during further upward movement. With the arm in such outer position, the nose of a flow control device coupled thereto is very precisely aligned with the seal bore at the upper end of the pocket, and is inserted therethrough as the tool is moved upward in the mandrel, After the flow control device is latched S in place, jarring forces can be applied to disconnect from the latch on the flow control, and to release a wedge-type lock. As the kickover tool is moved downward in the mandrel, the arm is forced inward and locked in an inner position by such wedge. Then the kickover tool can be retrieved from the :I 30 tubing. A secondary lock actuating mechanism also is provided to allow the arm assembly to be locked in its pivotally retracted position during such removal.

I 920729,kayspe. 001,30414,cla,2 r oii i -3- Embodiments of the invention will now be described by way of exaixiple only with reference to the accompanying drawings in which:- Figure 1 is a longitudinal sectional view of a side pocket mandrel in accordance with an embodiment of this invention; Figure 2 is an enlarged, fragmentary cross-sectional view of the chantil and slot arrangement; Figure 3 is an enlarged section taken on line 3-3 of Figure 1; Figure 3A is a view similar to Figure 3 but showing another embodiment of a T-slot; Figures 4A through 4C are longitudinal sectional views, with some portions in side elevation, of a kickover tool; Figure 5 is a side elevation view on lines 5-5 of Figure 4B; Figures 6-8 are respective sections taken on lines 6-6, 7-7 and 8-8 of SFigures 4A and 4B; Figure 9 is a cross-section showing the projecting ears on the lower arm of the kickover tool; Figure 10 is a longitudinal sectional view showing the arm assembly of the kickover tool being positively oriented and positioned by cooperation of projections thereon with the channel and slot arrangement of the mandrel; and S 20 Figure 11 is a view similar to Figure 4B showing the arm assembly locked in retracted position.

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o *eo o•* 920729,kayspe.00 1,304 14.cla,3 WO 89/07 189 PCT/US89/00295 DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS Referring initially to Figure 1, a side pocket mandrel 10 ne-tie includes an elongated body section 11 that is generally tubular, and which defines a main bore 12 and a side pocket region 13 that is offset laterally to the side of stach main bore. A short-length valve seating sub 14 is welded at 15 to the upper end of the body 11, and has a polish bore receptacle 16 that opens to the outside of the mandrel 10 through an outer inclined surface 17 thereof.

An enlarged diameter section 18 at the lower end of the bore 16 provides a latch recess, and an inwardly directed, arcuate shoulder 20 is arranged to cooperate with a latch mechanism to hold a flow control device (not shown) that extends through the bore 16. The packing on the f low control device engages the walls of the bore 16 to prevent fluid leak~age. The axis .22 of the bore 16 can be inclined downward and inward toward the axis 23 of the bore 12 at a small angle, for example 1-311, A tubular nipple 24 has 2 0 its lower end welded at 25 to the upper end of the soating sub 14, and is provided with internal thread.s 26 at its upper end for connection to the tubing. If desiredi, an outwardly directed lug 27 can be provided to protect the nose of the flow control device from damage due to impact during pipe handling.

A swage nipple 30 is welded at 31 to the lower end of the main body section 11. The nipple 30 has internal threads 32 at its lower end for connection to the tubing string. An orienting sleeve 33 is fixed in a suitable mnanner inside the bore 34 of the lower portion 35 of the swage nipple 30, and has a pair of helical lower surfaces 36 that lead upward to an open-ended slot 37 in the sleeve 33. As shown in enlarged detail in Figures 2 and 3, the slot 37 is rotationally oriented so as to overlay an elongated, vertically disposed recess 38 that is formed in WO 89/07189 PrU8/09 141, 1 WO 89/07189 PCT/US89/00295 the wall of the lower portion 35. The recesv: 38 has a generally semi-circular cross-section to provide a concave outer wall surface 40, and the width of the inner portion of the recess is substantially greater than the width of the sleeve slot 37. The arrangement of parts provides a generally T-shaped, elongated channel whose walls are defined by the outer wall surface 40, the outer surfaces 41, 42 of the sleeve 33 to the sides of the slot 37, and the opposed wall surfaces 43, 44 of the slot 37. As shown in Figure 2, the upper end of the channel 38 opens into the side pocket region 13 above the inclined upper end surface 45 of the sleeve 33, and the lower end portion 47 of the channel extend a distance d below the lower end of the slot 37. If desired, the lower end surface of the channel 38 can be inclined downward and inward toward the axis of the lower portion 35 of the swage nipple Another structural arrangement forming a T-shaped channel is shown in Figure 3A. In this case the orienting sleeve 133 fits in an eccentrically arranged counterbore 110 in the swage nipple 130, the centerline of the cylindrical inner wall surface 111 of the sleeve being aligned with the axis 23 of the mandrel bore 12. The longitudinal slot 137 in sleeve 133 is widened to the outside as shown to provide a pair of transverse wall surfaces 141, 142 and a second pair of side wall surfaces 112 that extend parallel to the side walli3 144 of the slot 137. These wall surfaces, together with the adjacent inner wall surface 140 of the swage nipple 130 provide a T-shaped channel similar to that shown in Figure 3, except that there are no acute corners in which a wlreline might become lodged.

A kickover tool 50 ace-w---re-p *inve n is shown in Figures 4A, 4B and 4C. The tool includes an elongated body or tray 51 having a threaded connector sub 52 for a wireline socket at its upper end.

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PCr/US89/00295 WO 89/07189 ST The sub 52 can be threaded at 53 to the upper end of the tray body 54. The body 54 is provided with an elongated recess 55 that receives a flow control device 56 as shown in phantom lines, which can be a gas lift valve, a dummy, or the like. A kickover arm assembly indicated generally at 57 in Figure 4B is attached by a transverse pivot pin 58 near the lower end of the recess The arm assembly 57 includes a lower arm 60 having an upper arm 61 pivotally attached thereto by a pin 62. The 1n lower arm 60 has an elongated slot 63 through which the mounting pin 58 extends to .enable a degree of upward movement of the the tray -51 relative to the lower arm.

The lower portion of the arm 60 has an inclined rear surface 64, and a lower end surface 65 that is rounded on a large radius. As shown in Figure 5 the upper portion 66 of the arm 60 has a reduced wall thickness and terminates in a rounded end portion or finger 67. The upper outer edge of the portion 66 is inclined upward and inward as showi. Suitable means such as a leaf spring 74 is secured to the arm 60 above the pin 58 in a manner such that the free end of the leaf spring slidably engages a back wall surface of the recess 55. Thus arranged, the leaf spring 74 urges the arm 60 to pivot in a clockwise direction about the pin 58, as viewed in Figure 4B.

A pair of oppositely projecting ears 70, 71 are formed on the upper portion 66, with each ear having oppositely inclined upper and lower end surfaces 72, 73.

A transverse section through the end portion 66 and the ears 70, 71 has a T-shaped configuration as shown in Figure 9. The width of the leg of the is slightly less than the width of the slot 37 in the orienting sleeve 33, and the height and transverse dimensions of the top of the is sized such that it will fit with somewhat loose tolerance within the channel 38 in the swage nipple 7I WO 89/07 189 PCr/US89/00295 it7 As shown in Figure 5, the upper arm 61 of the assembly 57 has a pair of legs 75 that are spaced apart so as to receive the upper portion 66 of the lower arm therebetween. An outer surface 76 of each leg 75 is formed to have substantially the same radius as the inner wall surface of the orienting sleeve 33. Aligned apertures 77 in the legs 75 receive the respective ends of the pivot pin 62. A ledge 68 on the upper arm 61 has a ii shallow depression 69 that receaves the inner end of a 10 compressed coil spring 80 that reacts against an inwardly facing surface 81 on the upper end portion 67 of the lower I arm 60. Since the spring 80 is located above the pivot pin 62 the spring functions to urge the upper end of the arm 61, and thus the upper end of the flow control device 56, to pivot toward the tray 51. The upper section 8? of I the arm 61 is provided with an internally threaded socket 83 to which a typical running or retrieving head (not Ushown in detail) is attached. of course the head is coupled to a latch mechanism that is attached to the lower 2 0 end of the flow control device 56.

In order to lock the arm assembly 57 in its inner position once the setting of a flow control device has been acmplished a mechanism indicated qeneroally at in Figure AR is secured to the lower end of the tray 51.

The mechanism 85 includes a tubular housing 86 having its I upper end threaded to the tray 51 at 87, and its lower end closed by a bottom plug 88 (Figure 4C). A wedge 89 having an upward and inwardly inclined surface 90 is mounted on the upper end of a rod 91 that is slidably received in a central opening 92 in the upper section 93 of the housing 86. The lower end of the, rod 91 is threaded to a plunger 94 that is biased. upward by a coil, spring 95 which reacts between a downwardly facing shoulder 96 on the plunger 94 and an upwardly facing shoulder 97 on the bottom plug $0, As shown in Figures 4B and 8 -the Wedge 89 is releasably coupled to a block 98 on the lower end portion of the tray WO 89/07189 PCT/US89/00295 51 by a shear pin 100. The upper surfaces of the block 98 are concave as shown, and slidably engage the companion curved lower surface of the arm 60. The wedge 89 fits within a longitudinal slot 101 in the block 98. A tubular sleeve 99 can be arranged on the lower portion of the tray 51 to provide a guide for the block 98. The lower end surface of the block 98 normally is spaced upward with respect to the upper surface of the housing 86 by a distance that is less than the malor length of the pin slot 63 in the lower arm A release rod 102 (Figure 4C) extends through a central opening 103 in the bottom plug 88 in a manner such that the lower end portion 104 thereof projects below the lower end of the plug. Another shear pin 105 is used to releasably attach the release rod 102 to the bottom plug 88. The upper section 106 of the rod 102 has an enlarged diameter to limit downward movement with respect to the plug 88.

.n OPERATION In operation, a number of the side pocket mandrels are connected in the well production tubing at selected, vertically spaced locations. To set a flow control device 56f 6tch as a gas llft valve, in one of the mandrels tho kickover tool 50 is assembled as shown in the drawing*, and the valve and latch are attached by a running head to the upper end 82 of the arm 61. The kic'Kover tool 50 then is attached by sinker bars and a set of jars to the end of the wireline, and lowered into the tubing. As the tool enters the top joint of the tubing, the arm assembly 57 is tucked in so that the arms and the valve lie within the elongated recess 55 of the tray body 54. The leaf spring 74 causes the upper outer surface 67 of the lower arm 60 to slide gently along the inner wall of the tubing as the tool 50 is lowered into the well.

WO 89/07189 PCT/US89/00295 When the kickover tool 50 has been lowered to a point below the mandrel 10 in which the valve 56 is to be set, the tool is stopped, and then raised slowly upward. The upper end portion 67 or "finger" of the lower arm 60 will engage a helical lower surface 36 on the orienting sleeve 33, which causes the entire kickover tool 50 to rotationally index until the finger is aligned with the slot 37 (or 137 in the case of the embodiment shown in Figure 3A). As the finger 67 enters the slot 37, the sprina 74 causes the upper end of the arm 60 to pivot further outward so that the ears 70,71 enter the lower end of the T-shaped channel 38 as shown in Figure 10. As this occurs, the upper end, or nose, of the gas lift valve 56 is tilted outward into precise alignment with the seating bore 16 due to sliding engagement of the outer wall surfaces 76 of the upper arm 61 with the inner wall surfaces of the orienting sleeve 33 to either side of the slot 37 The nose of the valve enters such bore as the ears 70,71 transverse the channel 38. In this manner, the valve 56 is positively positioned and held in the proper alignment during such entry. The tool 50 is raised further upward to complete the valve setting operation, and until the latch automatically engages in the region 18 above the shoulder 20. An upward jarring blow then is applied to shear the pin 100 that secures the wedge 89 to the block 98. When this occurs, the block 98 moves relatively downward and against the upper end surface of the housing 86, which positions the nose of the wedge 89 against the lower surface 64 of the arm 60. The coil spring 95 biases the plunger 94, the rod 91 and wedge 89 upward, however upward movement temporarily is prevented by engagement of the wedge with the arm surface 65. A downward jarring blow is applied to shear one or more shear pins that connect the running head to the latch i 35 assembly.

Xkfl WO 89/07189 PCT/US89/00295 )0 To remove the kickover tool 50 from the tubing with the arm assembly 57 locked in its inner position, the tool is lowered in the mandrel 10 until the arm engages the inner inclined surface of the swage nipple, 30. Further downward movement causes the arm 60 to pivot inward about the pin 58 until it is approximately aligned with the axis of the body 54. As such pivoting occurs, the wedge 89 is forced upward by the spring 95 to position the inclined surfaces 90 and 64 in contact with one another as shown in Figure 11. The ears 70,71 force the upper arm 61 inwardly to a retracted position, so that both arms are locked in the inner position by the wedge 89. The kickover tool then can be raised to the surface in a condition such that neither arm can hang up on anv shoulder that may be present in the tubing.

Another means of locking the arms 60, 61 in retracted position is to lower the kickover tool 50 until the bottom plug 88 encounters a stop that normally is placed in the tubing in preparation for a wireline operation. When the lower rod 104 engages the stop, the pins 105 and 100 are sheared, which allows the power spring 95 to extend and force the wedge 89 upward. At this point, the arms 60, 61 are being held retracted by the inner wall of the tubing.

The Inclined surface 90 of the wedge 89 enters behind the lower end portion of the lower arm 60 as described above, and functions to lock the arms 60 and 61 in their inner or retracted positions. in such condition, the kickover tool can be removed from the tubing well with ample clearance between the outer surfaces of the arms and the inner wall surfaces of the tubing.

It now will be recognized that a new and improved side pocket mandrel and kickover tool have been provided.

The apparatus is relatively simple in construction and operation, to greatly enhance downhole reliability. Since the T-shaped projection of the lower arm of the kickover tool engages and slides in a channel in the vtandrel, th& WO 89/07189 PCT/US89/00295 arm assembly and valve are positively positioned in accurate alignment with the valve seating bore. During setting, the lower arm rests on the block, which engages the kickover tool body, so that impact jarri' blows are not applied to the lower pivot pin. After setting has been accomplished, the arms are locked in retracted position by lowering the tool in the mandrel, or by engagement with a stop in the tubing.

Since various changes or modifications may be made in the disclosed embodiments without departing from the concepts involved, it is the aim of the appended claims to cover all such changes and modifications falling within the true spirit and scope of the present invention.

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Claims (3)

12- THE CLAIMS DEFINING THE INVENTION ARE AS FOLLOWS: 1. A side pocket mandrel comprising: an elongated, generally tubular body having means at its opposite ends for connecting said mandrel in a pipe string, said body having a main bore and a receptacle laterally offset to the side of said main bore for receiving a flow control device, an orienting sleeve fixed in said body and having guide surfaces leading to a longitudinal slot characterised in that longitudinally extending channel means is provided adjacent said slot for causing the arm of a kickover tool to be held in an extended position as the kickover tool is moved within said bore of said mandrel and in that said receptacle and said sleeve are located adjacent respective opposite ends of said body, 2. A mandrel according to claim 1, wherein said receptacle is located adjacent the upper end of said body, and said sleeve is located adjacent the lower end of said body. 3. A mandrel according to claim 2, wherein said receptacle includes a bore that extends upward through the wall of said body, said bore being .i adapted to be engaged by packing means on a flow control device. 4. A mandrel according to claim 3, wherein the longitudinal axis of said bore is inclined at a small angle downward and inward with respect to the longitudinal axis of said main bore, 5. A mandrel according to any one of the preceding claims, wherein said channel means is provided by a longitudinal recess having a width greater i than the width of said slot to define, together with the side walls of said slot, a generally T-shaped opening. C e 6. A mandrel according to claim 5, wherein said channel means extends in said body from a first point adjacent one end of said slot to a 920729,kayspe,00,30414.ca,12 -7 ii;

13- second point located a selected distance beyond the other end of said slot. 7. A mandrel according to claim 6, wherein said guide surfaces are formed and lead helically upward to the lower end of the slot, said second point being below said other end of said slot. 8. A mandrel according to claim 7, wherein said receptacle is formed in a short-length seating sub that is formed as an integral part of the upper section of said body, said receptacle including a seal bore that extends upward through the wall of said sub to the exterior of said mandrel. 9. A mandrel according to claim 8, wherein said receptacle further includes a latch recess having a diameter greater than the diameter of said seal bore, said latch recess being located adjacent the lower end of said seal bore, and futhber including an inwardly projecting, arcuate iatch shoulder at the lower end of said latch recess. A side pocket mandrel substantially as hereinbefore described with reference to the accompanying drawings. DATED this 29th day of July 1992 William B. Crawford By His Patent Attorneys DAVIES COLLISON CAVE I-y *9

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