|Publication number||US3841407 A|
|Publication date||Oct 15, 1974|
|Filing date||Jan 2, 1973|
|Priority date||Jan 2, 1973|
|Publication number||US 3841407 A, US 3841407A, US-A-3841407, US3841407 A, US3841407A|
|Original Assignee||Bozeman J|
|Export Citation||BiBTeX, EndNote, RefMan|
|Patent Citations (10), Referenced by (68), Classifications (15)|
|External Links: USPTO, USPTO Assignment, Espacenet|
United States Patent Bozeman Oct. 15, 1974  COIL TUBING UNIT 3.373.818 3/1968 Rikc ct a1. 166/77 I 1 1 1 hwemon John Boleman, 12710 019 Oaks, 33223:?23 2/1333 ZEEEQJLJZLIIIII: .1:11;..T.?12273l Houston, 77024 3,690,136 9 1972 Slator .1 166 77  Filed: Jan. 2, 1973 Primary Examiner lames A. Leppmk  APPL N03 320,051 Attorney, Agent, or F1'rmMurray Robinson; Ned L.
Conley; David Alan Rose  U.S. Cl 166/315, 166/77, 226/173,
6 242/861, 254/175.5  ABSTRACT  [11L Cl E21!) 33/03, B6511 75/00 Apparatus and method for running a continuous  new Search 166/3151 7,7;226/1'721 length of coiled substantially inflexible tubing into a 226/173; 175/103; 23/175], 175-5; well wherein the coiled tubing is pulled from a reel by 242/86'l 198/162 165 means of a feeding unit which includes opposed roller chains moving along an arcuate path folfmed by a  References Clted frame, with one of the roller chains being powered UNITED STATES PATENTS and provided with gripping elements for gripping the 2,548,616 4 1951 Priestman ct 175 103 i g, a d t h r r ll r chain being pressed into 2,567,009 9/1951 Calhoun et a]. 166/77 engagement with the tubing by fluid pressure in a hose 7 1964 g yf v 1661/77 which provides uniform pressure along the arcuate I}; lggctstfavlck i path; the tubing being straightened at the outlet of the a or l 1 3,363,880 1/1968 Blagg 166/77 arcuate path by a Straghtenmg devlce' 26 Claims, 11 Drawing Figures mramwnmsw 398410407 SHEEF NF 3 COIL TUBING UNIT BACKGROUND OF THE INVENTION 1. Field of the Invention I This invention relates to equipment and method for feeding coiled substantially inflexible tubing into a well.
agents, acids jells, lost returns control agents, sand con-- solidation chemicals such as resin and the like, fresh or salt water, hydrocarbons and fracturing fluids. The
SUMMARY OF THE INVENTION 1 This invention'provides a novel means and method for feeding coiled tubing into a well, wherein the tubing is gripped along an arcuate path with a substantially uniform gripping force along the path, and is pulled along this arcuate path and then pushed into the well.
I Preferably a straightening means is used to straighten fluid may be a liquidor a gaseous or vaporous fluid as may be desired.
It has been known for some time that such fluids may be injected into a well by means of a substantially inflexible coiled tubing which is pulled from a reel and pushed down into the production tubing to the desired location in the well. Such tubing may be of steel, stainless steel, other metals, or various substantially rigid plastic materials. Means for injecting fluid through such a tubing arranged on a reel are shown for example in the Priestman et al US. Pat. No. 2,548,616. In that structure the end of the tubing on the reel is connected to the hollow core element of the reel, which in turn is connected through a suitable connection to a source of fluid. Valve means are suitably used to close the tubing to hold well pressure. The coiled tubing is uncoiled from the reel, straightened and forced into the well. Such wells are often under pressure, and it will be appreciated that in such a case a substantial force may be required to push the tubing into the well against pressure. After the tubing is inserted into the well a desired distance, fluids may then be injected. After the injection the tubing may be retrieved and coiled back up on the reel for reuse. Alternatively the tubing may be left .in the well to facilitate operations which may occur frequently, or it may be left in the well foruse permanently as a production tubing for flow of hydrocarbons and the like therethrough or for control of the well.
Brown Oil Tools, Inc. of Houston, Texas has used a coil tubing feeding unit having a curved track on which rollers carrying grippers for the tubing are carried. A roller chain is also carried on the rollers, and is powered to move the rollers along the track. The tubing is held in contact with the grippers by grippers carried on an oppositely facing roller chain which is held in tension in. order to apply pressure to the grippers. To straighten thetubing after it leaves the feeding unit, a
straightening unit similar to that shown in US. Pat. No.
3,116,793 to McStravick is used.
Other apparatus and methods for feeding coiled tubing into a well are shown in U.S. Pat. Nos. 2,567,009 to Calhoun et al., 3,116,781 to Rugeley et 211., 3,1 16,793 to McStravick, 3,658,270 to Slator et al and 3,667,554 to Smitherman.
The prior art just described is, in the opinion of the applicant, the closest to the invention known by him.
the tubing at the end of the arcuate path. The invention also contemplates, in a preferred embodiment, novel means for starting thetubing into the gripping means, comprising a flexible line which may be attached to the end of the tubing and pulled along the arcuate path by the gripping means.
Other features of the invention pointed out in the claims can best be set forth in the following detailed description of the preferred embodiment.
BRIEF DESCRIPTION OF THE DRAWING A preferred embodiment of the apparatus of this invention, suitable for. practicing the method of this invention, is shown in the drawing, wherein FIG. 1 is an elevational side view of one embodiment of the invention;
FIG. 2 is an elevational view of theright end of the mast as shown in FIG. 1;
FIG. 3 is an elevational view of the framing structure of the tubing feeding unit shown in'FIG. 1;
FIG. 4' is a somewhat schematic view showing the wellhead into which the coiled tubing is being fed and the arrangement of roller chains and sprockets in the feeding unit for feeding the tubing;
FIG. 5 is a horizontal sectional view of the framework of FIG. 3, taken at line 55 of FIG. 3',
FIG. 6 is an enlarged elevational view, with parts bro.- ken away for clarity, of the outlet end of the feeding unit;
FIG. 7 is a horizontal sectional view of the structure shown in FIG. 6, taken at Line 7-7 of FIG. 6;
FIG. 8 is an elevational view of the straightening device shown in FIG. 6;
FIG. 9 is an elevational view of one embodiment of gripping element according to the invention;
F lg. 10 is an end view of the pressure hose used in the feeding unit; and
FIG. 11 is a layout sure hose.
DESCRIPTION OF THE PREFERRED EMBODIMENT The rig illustrated in FIG. 1 of the drawing is portable, being mounted upon a support comprising a trailer 10 on which is carried a reel 12 having a hollow shaft 14 mounted on a yoke 16. The reel has a diameter of 6 feet or more, preferably 7 to 8 feet. A'sprocket 18 is mounted on the shaft 14 and is arranged to be driven through a chain 20 by means of a sprocket 22 mounted on the shaft of a suitable motor'24, which is preferably hydraulic but may be electric. At the other end of the trailer a suitable mast 26 is pivotably mounted at 28. The mast may be moved between the vertical working position shown and the transport position indicated in broken lines at 28 in which it rests upon a support 30, the movement being accomplished by means of a fluid cylinder 32 connected to the mast at 33 above the pivot 28 and to the trailer bed through a yoke 34. A suitable tank 36 is also mounted on the tr ailerito provide liquids of fluid supply means for the presfor injection into the well. Such liquids are removed from the tank by means of a pump 38 connected to the tank by a pipe 40 and connected to the hollow shaft 14 of the reel by pipe 42. Fluid provided by the pumpmay be pumped into the tubing 44 by-means of the hollow shaft 14 and tubing connections as shown for example in theaforesaid'Priestman et'al. patent.
carbon steel or other suitable material and typically is a continuous length of tubing several thousand feet long. Tubing up to one inch diameter, and in some circumstances even larger, is readily coiled on the reel by rotating the reel by means of motor 24. The tubing is pulled-from the reel by 'means of the tubing feeding unit indicated generally at 46, which is mounted on the mast In the embodiment shown the mast 26 comprises vertical standards 48 mounted on a ground engageable base 50 and-havinga header 52 thereon. A frame 54 is adjustable vertically on the mast by means of-fluid cylinders 56 mounted on the header 52 and having'their piston rods connected to upper guide channels 58 whichare vertically slideable on the standards 48,
Upper guide channels 58 and lower guide channels 60 are provided with vertical ways 59 to slideably receive standards 48, and with horizontal ways therein for slideably receiving upper horizontal frame members 62 and lower horizontal frame members 64 of the frame 54. The lower guide channels 60 are connected together by a cross-beam 65. Theupper frame members are connected together by cross frame members 66 and the lower frame members are connected together by cross frame members 68. Vertical frame members 70 and 72 provide connection between the upper and lower frame members. The frame is also provided with horizontal support beam 74 and vertical support member 76. A fluid cylinder 77 is connected between crossbeam 65 and a support bracket 124 which. extends downwardly from frame member 64. g
The, vertical support member 76 extends above the horizontal beams 62 and provides means for supporting the upper end of an arcuate track 78 which may, as
shown in FIG. 7, be formed of structural steel channel. In the embodiment shown the track 78 lies in a vertical plane and is approximately 90 degrees in length, being maintained.
.a-structural steel channel, having its web turned toward the compression member 84.'The compression member in turn is, in the embodiment shown, formed of a C-section structuralmember, having inturned lips 92 on the legs thereof, and having its-web'facing toward the outer frame member. There is received between the webs of the compressionmember and the outer. frame member a fluid impermeable flexible-tubular member 94, such as a fire hose or the like,extendingsubstantially the full length of the arcuate members. A clamping block 96 clamps the lower end of the hose 94 to the outer frame member 82', thereby closing the lower end of the tube. The upper end of the hose is closed by a similar clamping block 96, as shown in FIG. 10, but at this end a piece of small, partially flattened, copper tubing or the like, indicated at 98, is inserted in one edge of the hose to provide means for feeding pressurizing fluid into the hose. i 3
The term fluid impermeable as used herein is not intended to mean that the hose is absolutely pressure tight. As will be shown, means'are provided for maintaining a desired fluid pressure within the hose, even though small leaks may existl- Thus, it is only necessary that'the impermeability of the hose be such thatunder the conditions of operation a desired pressure can be The outer web surface of theltrack 78 is provided with'awea'r plate 100, which may be weldedor otherwise fastened to the track, and which extendst'hei full length of the track. A similar wear plate l02-is provided in the channel forming the outer arcuate frame member 82. This wear plate is fastened by means which allow shimming underit to compensate'for chain loosenessfrom wear. The compression member web is, in
the embodiment shown,preferably made of hardened v the wear plate. At the upper end of the track the; roller tangent,'or nearly so, with a horizontal line at its upper,
or inlet end and-tangent, or nearly so, with a vertical line at its lo wer..or outlet end. However, depending upon the relative position of thefeeding unit and the.
reel, the track may be substantially more than degrees long, greater lengths providing more possible gripping area'for the tubing.
. Spaced radially outwardly from the track 78, and rigidly connected thereto by means of plates 80 is'an outer chain passes around a sprocket 108 mounted on a shaft journaled in a bearing 110 which is mounted on the vertical frame member 70. The chain then passes substantially vertically downwardly and is engaged by a power sprocket ll2 mounted on a'shaftv 114 which is journaled in a bearing 116 mounted on the vertical frame member 70. At the lower or outlet end of the track the roller-chain is. engaged by asprocket=l18 mounted on a shaft 120 which is journaled in a bearing 122 mounted on asupport bracket 124 extending downwardly from horizontal. frame member 64.
' Also mounted on the shaft 114 is ,a drive sprocket arcuate frame member 82, which,.in the embodiment shown, also extends approximately 90 although somewhat shorter than track 78, about the same center. 60
126 which is driven through a chain 128 from a sprocket 130 mountedonthe shaft 1320f a reversible drive motor 133, which may,for example, be a hydraulicmotor. g Y
A second, non-powered roller chain 134 circumscribes the outer frame member 82 and the compression member 84, its rollers 136 riding on the wear plate 102 of frame member 82, and being carried withi'nthe compression member and riding on its web. At the lower end of these membersthe chain engages a. sprocket 138 which is mounted on a shaft "140" journaled in'bearings '142 mounted on a forward'extension of the horizontal'frame member 64. At the upper end the chain engages a sprocket142 mountedon a shaft 144 which is journaled in a bearing 146;, mounted on an upward extension of the vertical frame element 76.
Alternatively, chain 134 may also be powered. If so, a separate hydraulic motor drive is used for this chain, so that it is possible to take advantage of slippage in the motors to coordinate chain velocities.
The links 148 of the powered chain 104 are provided with pivot pins 150 which have gripping devices 152 pivotally mounted thereon. As seen in FIG. 9, each of the gripping devices comprises an elongate channel member 154 having a flange 156 thereon with a bore 158 therein to recieve the pivot pin 150.The channel member is provided with an approximately semicircular groove 160 which, in the embodiment shown,
is partially filled with a hard gripping material 162, such as tungsten carbide. In this form the groove has a is made one inch nominal width and approximately I five-eights inch deep, utilizing a radius of one-half inch. Then the bottom of the groove is filled with tungsten carbide material, as by welding, and this material is .tapered out to'a thin edge near the top of the groove. The tungsten carbide is preferably left rough. Although this is the preferred structure, excellent gripping may be attained by other means well-known in the" art. For example, the groove may be knurled and the grippine element heat-treated.
With such a design, the side-walls of the tubing are restrained against expanding when the tubing is subjected to compression loading in the feeding unit, and is being curved in feeding through the unit, so that flat tening of the tubing is less of a problem.
The roller chain 134 carries on its links 164 tubing engaging elements 166, which are pivotally mounted on pivot pins 168 extending through the links. The put; pose'ofthese tubing engagement elements-is to hold the tubing in contact with the gripping elements 152. Since the chain 134 is not powered it is not necessary that the elements 166 grip the tubing and therefore no gripping surface is provided. Thus the elements 166 may be formed of short sections 170 of a pipe segment of somewhat less than l80, with a flange 172 welded thereon and having a hole therein for pivotable engagement with the pivot pins 168. If, however, the chain 134 is powered, gripping surfaces are desirable on the elements 166.
Preferably the roller chains I04 and 134 do not have the same pitch, and many of the tubing engagement members 166 are not opposite the tubing gripping members 152. Where the centers of contactof the gripping members and engagement members are not directly opposite eachother, the force of engagement of these members causes small deflections of the tubing,
thereby increasing the ability of the gripping members to grip the tubing. As an example, the gripping members and engagement members may each be 2V2 inches long, with the gripping members on 5 inch centers and the engagement members on 4 inch centers. Preferably these members are of such spacing and have such length as to provide engagement by the gripping members'with approximately 50 percent of the length of the tubing. With the design of this invention this is sufficient to insure good gripping without slippage. Thus in one installation as much as 40,000 pounds of radial force may be exerted on the tubing, with a maximum load on the tubing of less than 1,000 pounds per square inch of projected area. 7
At the lower or outlet end of the tubing feeding device, as best seen in FIGS. 6 and 8, a straightening device indicated generally at 174 is provided. In this device a plate 176 is pivotally mounted on shaft 178, on
the support members 124, extending downwardly from the pivot. A pair of pins 180fastened near the lower edge thereof are loosely received in openings provided in a spring support plate. 182 extending upwardly-therefrom, the pins 180 thereby acting as hinge means to allow limited pivoting between plates 176 and 182. A
spring member 184, curved on a long radius of, forexample, 3 to 6 feet, is fastened to the spring support plate 182, as by welding, and extends upwardly substantially byond the pivot 178 on which the plate 176 is suspended, overlapping the end of track 78. The spring member 184 is preferably made of a resilient spring steel, or a steel such as AIS] 1,040, heat treated to 300 BHN or more. As seen in FIG. 6, in passing from the lower end of the track 78 to engagement with the sprocket 118 the rollers of roller chain 104 roll along the spring member.
The spring member is laterally and angularly adjustable by means of an adjusting screw l88 mounted in an angl'e'l90 extending between the support members 124, the adjusting screw being adjustable to bear against the back of the plate 176, and thereby pivot it about pivot pin 178, causing the lower end of the spring member 184 to move toward the chain and the upper end to be pivoted away from the chain. Adjusting screws 192 mounted in the spring support plate 182 bear against the plate 176 and may be adjusted to increase or decrease the angle between the spring member 184 and the plate 176. Thus by suitable adjustment of the adjusting screws providedthe spring member can be moved to provide force as found necessary to obtain adequate straightening of the tubing as it exits from the tubing feeding device.
In the straightening device of this invention the lowest portion of the feeder unit acts as the pivot about which the straightening moment is applied. Thus the moment about which the straightening force is applied is the distance from the lower end of the feeder unit to the center of contact of the spring member with the rollers of chain 104. No additional pivot means is required, so that the feeder unit may be placed close to the well head, with consequent minimizing of danger of buckling of the tubing as-it'is forced into the well.
A suitable pressurizing fluid for the hose 94, such as air or other gas or a hydraulic fluid, may be provided from any suitable source as well known in the art. For example, as shown in FIG. 11 air under pressure from a compressor may be supplied through a line 194 through a three-way valve 196 and a pressure regulator 198 to a line 200 provided with a pressure gauge 202, which is connected to the copper tubing 98 held in the end of the hose 94. By suchmeans the pressure of the fluid in the hose 94 can be controlled with great accuracy to maintain a precise desired force on the tubing,
thereby greatly minimizing the difficulties encountered with designs heretofore known of having too much pressure on the tubing, thereby damaging it, or too little pressure so thatit is impossible to grip the tubing sufficiently to feed it into a well against high well pressure. With this system the force of the tubing can be adjusted to just enough to feed the tubing without slippage. It has been found that a hose pressure of to 120 pounds per square inch is adequate to apply suitable pressure to the tubing.
In the operation of the apparatus of this invention the trailer is moved to a position adjacent the wellhead, in-
dicated at 204 in FIG. 1, and the mast 26 is elevated by means of the hydraulic cylinder 32. The mast rests on the ground (blocking under it being provided if necessary) and Outriggers may be provided thereon for stability if desired. The fluid cylinder 77 is actuated to move the frame 54 out until the lower or outlet end of the feeding unit is directly over the wellhead. A suitable control-device, illustrated at 206, is then attached to the wellhead and the frame 54 is moved'vertically by means of the fluid 56 to a position just above the-control device. It is desirable to have the straightening device as close as possible to the flow control device in order to minimize the danger of buckling of the tubing as it is pushed into a well under pressure; The control device may include, for example, one or more blowout preventers 208, a suitable snubbing rubber 210 and a suitable stripper rubber 212,-as well as a return line 214. The return line may. be connected by means of hoses or the like to return fluids to the tank 36. ln some operations, however, the pump 38 will be used to pump fluids through the return line 214 into the annulus between the. well production tubing and the tubing 44, and returns from the well will be brought up through the tubing 44 and returned, by suitable piping, to the tank 36. Alternatively fluids may be taken from other sources, and maybe returned to other disposal locatrons.
Once the tubing feeding apparatus is in position a catline 216, which may for example comprise an ordinary manila rope having a diameter slightly larger than the diameter of the tubing 44, is fed into the tubing feeding unit, between the gripper element 152 and the tubing engagement element 166. A suitable pressure is applied to the'hose 94 to grip the line. Motor 133 is tension to the tubing.
As the tubing is fedinto the feeding unit the gripper elements ISZ-engage it. During this procedure a suitable pressure is maintained on the hose 94 to maintain sufficient gripping force on the tubing to pull it from the reel. Thus as the chain 104 continues to move the tubing-is pulled from the reel and passed downwardly to'the outlet end of the feeding apparatus. At this end the roller chain 104 engages the springmember 184 and is urged laterally enough to straighten the tubing.
, As seen in FIG. 6, the straightener moves at least one roller of chain 104 laterally from the arcuate path of the track 78. The sprocket 138 is displaced far enough to allow such movement. One or more rollers following the roller engaged by the straightener may be moved out of contact with the track. Thus the straightening moment has a momentcenter just within the arcuate path, where the tubing is engaged by the lowermost engagement element 166 which applies pressure to the tubing. The position ofsprocket 138 is preferably such that the engagement elements 166 on chain 134 which are between the lower end of compression member 84 and the axis of sprocket 138 will act as stopsto prevent too much lateral movement of the tubing if there should be a tendency for it to buckle under the force required to push it into a well'under pressure.
The tubing is then passed downwardly through the stripper rubber and snubbing rubber and down into the well. If necessary, the pressure in hose 94 may be increased to prevent slippage of the gripper elements as the tubing is forced in against well pressure. As more tubing is fed into the well, the weight of the suspended tubing helps pull the tubing into the well, so that at substantial depths the tubing feeding unit may be used as a brake. When the desired depth is reached, feeding of the tubing is stopped and workover operations are performed, fluid being injected and recovered as desired. At the conclusion of the workover operations the motor 24 is operated-in order to rotate the reel to wind up the tubing. Maximum force is required during this operation to pull the several thousand feet of tubing, therefore a high gripping pressure is applied to hose94, and motor 133 is operated in a direction to move chain 104' to pullthe tubing from the well. When the tubing is fully rewound on the reel, the control equipment 206 may be removed and the mast returned to transport position as shown in broken lines in FIG. 1.
It will be appreciated that application of fluid pressure to the tube 94 causes the compression member 84 to move radially inwardly toward the track 78. Only avery small movement is required. Even in'a badly worn condition, movement does not exceed about one quarter inch. Furthermore. the compression member has'a large radius of four to eight feet or more. Thus despite the fact that the compression member 84 may be fairly rigid, it will provide continuous substantially uniform pressure "engagement of the tubing engagement elements 166 with the tubing 44. However, if desired the compression member may be made more flexible, as by making it in segments or by cutting through the flanges at spaced points along the length of the member.
The feeding unit elements have been described herein asbeing arcuatefl' and the preferred embodi ment-has been described in termsof an arc of a circle. However, it is apparent that other forms of curves may be used equally well, depending on the requirements of a particular application. Thus the invention may be practiced usinga curve which is a segment of an ellipse, a parabola, a hyperbola,'or an irregular curve, or one which includes straight sections. The .term curved" as used herein is intended to include anyother suitable shape.
Although a preferred embodiment'of the invention has been shown and described herein it is apparent to those skilled in the art that many variations may be made in this preferred embodiment, which variations are within the scope of the present invention. Accordingly the invention is not limited to the described embodiment, but includes all modificationsthereof included within the scope of the appended claims.
1. Apparatus for running a continuous length of coiled substantially inflexible tubing intoa well, comprising a reel for carrying said coiled tubing and tubing feeding means wherein the improvement comprises a curved track lying in a vertical plane, said track having an inlet end opening toward said reel and an outlet end extending substantially vertically downwardly,
powered tubing gripping means movable along said track from said inlet end to said outlet end, and pressure means overlying said track and having means thereon to engage said tubing to urge said tubing into gripping engagement with said tubing gripping means, said pressure means comprising fluid pressure actuable 'means'adapted to provide substantially uniform pressure of engagement of I said gripping means with said tubing from said inlet end to' said outlet end.
2. Apparatus as defined by claim 1, wherein said pressure actuable means comprises a curved flexible fluid impermeable member overlying and spaced away from said track. 3'. Apparatus as defined by claim 2 and including an inner curved compression member free to move radially toward and away from said track, positioned between said fluid impermeable member and said gripping means, and
an outer curved frame member fixed substantially rigidly with respect to said track, overlying said fluid impermeable member.
4. Apparatus as defined by claim 3, wherein said'tubing gripping means comprises a plurality of rollers flexibly connected together in a chain, whereby said rollers roll along said track from said inlet end to said outlet end, and gripping devices carried by said rollers to engage the tubing.
5. Apparatusas defined by claim 4, wherein said pressure means includes a plurality of rollers intermediate said compression member and said gripping devices, and means on the pressure means rollers for engaging thetubing.
6. Apparatus-as defined by claim5, wherein said pressure means rollers are flexibly connected together to form an endless roller chain passing around said compression member and said outer curved framemember and lying in the plane of said track.
- pressure means overlying said track and having I means for applying a straightening moment about a point substantially at the outlet end of the feeding means.
9. Apparatus as defined by claim 8 wherein said tubing straightening means includes a resilient plate positioned to form an extension of said track, and
means to adjust said plate laterally and angularly with respect to said track to change the straightening force applied.
10. Apparatus for running a continuous length of coiled substantially inflexible tubing into a well, comprising a reel for carrying said coiled tubing and tubing feeding means comprising a curved tracklying in a vertical plane, said track having an inlet end opening toward said reel and an outlet end extending substantially vertically downwardly, I
powered tubing gripping means movable along said track from said inlet end to said outlet end, and
pressure means overlying said track and having means thereon to engage said tubing to urge said tubing into gripping engagement with said tubing gripping means, wherein the improvement comprises a substantially flexible line proportioned to be gripped by said gripping means, and
means for attaching said line to the end of the tubing on said reel,
whereby said tubing feeding means can be used to pull said line and thereby pull the tubing off the reel.
11. A process for running a continuous length of coiled substantially inflexible tubing from a reel into a well which comprises grippingly engaging said tubing with a plurality of gripping elements positioned along a curved path,
applying a resilient radially inwardly directed force to said tubing along said curved path, said force being substantially uniform throughout the length of said curved path, and applying a force to'said gripping elements to move them along said curved path, whereby said tubing is pulled from said reel along said-curved path until the tubing at the end of the curved path is substantially vertical, and pushing said tubing into said well.v I 12. A process as defined by claim 11 wherein said radially'inwardly directed force is applied through elementswhich engage said tubing intermediate the points of engagement of said gripping elements.
13. A process. as defined by claim 11 and including straightening said tubing at the end of said curved path. 14. A process as defined by claim 12 wherein the movment for straightening the tubing is applied about a moment arm having its moment-center in said path.
15. In apparatus for running a continuous length of coiled substantially inflexible tubing into a well, comprising a reel for carrying said coiled tubing,
a curved track lying in a vertical plane, said track having an inlet end opening toward said reel and an outlet end extending substantially vertically downwardly,
- provement comprises a plurality .of tubing gripping elements mounted on saidchainand extending radially outwardly from the chain on the track for engagement with tubing overlyingsaid track, a second, non-powered roller chain overlying the powered roller chain, and
a plurality of tubing engageable elements on said second rollerchain extending radially inwardly there from toward said powered roller chain, said tubing gripping elements and said tubingengageable elements being spaced and proportioned to allow tubing to pass betweenthem,
the improvement which comprises a compression member overlying the radially inner flight of said second roller chain, and extending substantially the length of said track, free to move 1 radially toward and away from said track,
a curved, flexible fluid impermeable member overlyingsaid frame member, r
e an outer curved frame member fixed substantially rigidly with respect to said track, overlying said fluid impermeable member,
said compression memberand said outer frame member and said fluid impermeable member being mounted within said secondroller chain, and
means for applying'fluid under pressure-to sa'id -fluid impermeable member.
16. Apparatus as defined by claim 15 wherein said gripping elements are spaced apart along the powerdriven chain and said tubing-engageable elements are spaced apart along the second chain, the spacings being different so that at least some of the tubing-engageable elements do not engage gripping element. i
19. Apparatus as defined by claim 15 including means to apply a straightening moment to the tubing the tubing directly opposite a substantially at the outlet end of said track.
20. Apparatusfor running a continuous length of coiled substantially inflexible tubing into-a well, com- .prising a reel for carrying said coiled tubing .and a curved feeding unit'adapted to grip the tubing to pull it substantially horizontally from the reel and push it substantially vertically into the well,wherein the immeans'fo'r applying a straightening moment to the tubing substantially at the vertical outlet end of the feeding unit, said means comprising a pivot. within the feeding unit about which the straightening moment is applied.
21. Apparatus as defined claim 20 wherein said staightening means further includes 12 means within the feeding unitadapted to apply said straightening moment.
22. lnapparatus for running a continuous length of coiled substantially inflexible'tubing into a well, comprising f a'reel for carryingsaid coiled tubing, v s
a curved track lying in a vertical plane, said track having an inlet end opening toward said reel and an outlet end extending substantially vertically downwardly, v
an endless roller chain lying in a vertical plane on said track, A l
power means connected to drive said chain, whereby its rollers move along saidtrack from its inlet end to its outlet end,
a plurality of tubing gripping elements mounted on said chain and extending radially outwardly from the chain'on the track for engagement with tubing overlying said track,
a second roller chain overlying the powered roller chain, and
a plurality of tubing-engageable elements on said sec ond roller chain extending radially inwardly'therefrom toward said powered roller chain,
said tubing gripping elements and said tubingengageable elements being spaced and proportioned to allow tubing to pass between them,
the improvementwherein said tubinggripping elements include a substantially groove having a tioned to engage the tubingto grip it within the groove. f 23. Apparatusjas defined by claim 22 wherein said tubing-engageable elements include'a groove of substantiallyless than 180 positioned to engage the tubing to push it into grippingengagement with-the gripping elements.
24. Apparatus as defined by claim 22 wherein said gripping elements arespacedapart along the powerdriven chain and said tubing-engageable elements are spaced apart along the second chaimthe spacings being different so that at least some of the tubing-engageable elements do not engage the tubing directly opposite a gripping element.
25. Apparatus as .defined by claim 22 and including means to apply a straightening moment to the tubing substantially at the outlet end of said track. 26. Apparatus for running a continuous length of coiled substantially inflexible tubing into a well,'-comprising a reel for carrying said coiled tubing and a curved feeding unit adapted to grip the tubing to pull it substantially horizontally from the reel'and pushit substantially vertically into the well, wherein the im provement comprises a means for applying a straightening moment to the tubing about a point substantially at the vertical outlet end of the feeding unit, said means including nominal radius the same as that of the tubing posi-
|Cited Patent||Filing date||Publication date||Applicant||Title|
|US2548616 *||Feb 2, 1948||Apr 10, 1951||Dawson Priestman George||Well drilling|
|US2567009 *||Jun 24, 1948||Sep 4, 1951||Shell Dev||Equipment for inserting small flexible tubing into high-pressure wells|
|US3116781 *||Mar 29, 1961||Jan 7, 1964||Jersey Prod Res Co||Apparatus for completion and working over of wells|
|US3116793 *||Mar 29, 1961||Jan 7, 1964||Jersey Prod Res Co||Completion and working over of wells|
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|U.S. Classification||166/384, 242/397, 166/77.3, 242/403, 254/265, 242/564.3, 226/173|
|International Classification||B65H51/00, E21B19/00, B65H51/14, E21B19/22|
|Cooperative Classification||B65H51/14, E21B19/22|
|European Classification||E21B19/22, B65H51/14|