This invention relates to a tool for removing and retrieving packers from oil wells.

Production oil wells are fitted with a packer . which is a solid metal cylindrical body which is secured to the well casing against upward and downward movement by circumferential upward-and downward-facing barbs. The packer has a central bore through which liquid can pass, the bore having an upper cylindrical portion and a lower cylindrical portion of greater diameter with a taper therebetween.

The packer is sealed to the casing by resilient sealing rings. Packers of the type described are of a widely standardised design throughout the oil production industry.

Should the well packer require replacement, for example, if the seals should break permitting escape of gas, a milling tool is fed down the well to mill and thus destroy the packer retainers and a retrieving tool is used to fish the remaining parts of the packer from the well.

Combined milling and retrieving tools are known. One such known tool has a central probe which penetrates the central bore of the packer and locates in the large diameter lower portion thereof. A cylindrical mill with a tungsten carbide- cutting face located on the upper cylinder rim mills away the packer barbs and frees it from the well casing permitting withdrawal from the well. Particulate metal millings flow through the cylinder and up the well into debris collectors.

The known packer retrievers can have difficulty when used in highly angled deep wells, more particularly in emergency situations if the packer should tilt and jam in the well casing. This problem is aggravated if the well is being operated from a relatively unstable

rig such as a semi-submersible oil rig for undersea production. If a packer should jam during retrieval and too great a force is applied in an attempt to free it breakage may occur either in the screwed connections of the retriever itself or in joints further up. When such circumstances occur it is necessary to sink a further milling tool to mill away all the remainder of the retriever and this is an extremely time-consuming and expensive operation particularly if the tungsten carbide cutting edge of the packer retriever has to be milled away as this obviously causes great wear of the second milling tool.

An object of the present invention is to obviate or mitigate the aforesaid disadvantages. ^• According to the present invention there is pro¬ vided a packer retriever including means for milling the packer to release same from the well casing and a packer catcher for catching the released packer characterised in that said catcher bears on a shear collar secured by one or more shear bolts or pins the material and/or number of which predetermine the shear stress at which the collar is released.

Preferably the means for milling the packer are one or more radially extending fi-α-like projections provided with a milling face.

In a preferred embodiment of this invention, a packer retriever includes an elongate tube having an end-to-end bore, on the tube one or more radially extending fin-like projections each having a milling face, a catch sleeve on the tube consisting of a series of radially sprung fingers engageable in the mill-out extension of the packer and bearing on a shear collar secured to the tube by one or more shear bolts or pins adapted to shear at a shear stress preset by selection of the material and/or number of the bolts or pins.

The packer retriever may also include a terminat-

O

ing milling tool dimensioned to pass through the bore of the packer.

It is further preferred that the packer is pro¬ vided with ports proximate the milling fins and the milling tool located at the end of the retriever, said ports communicating with the central bore of the retriever and providing means for delivering a jet.- of liquid from the central bore to the area- of milling to sweep milling debris therefrom. The invention will now be described, by way of example, with reference to the accompanying drawings, of which:

Fig. 1 is a layout sketch showing the arrange—. - ment of parts throughout the- length of a packer retriever incorporating this invention;

Fig. 2 is a longitudinal section of the length indicated by "A" in Fig. 1;

Fig. 3 is an elevation from the direction indicated by arrow C in Fig. 2; Fig. 4 is a section taken on line. D-D in Fig. 3; Fig. 5 is a longitudinal part-section of the length indicated by "B" in Fig. 1;

Fig. 6 is an end view from the direction indicated by arrow E in Fig. 5; Fig. 7 is a drawing of the shear sleeve indicated by 33 in Fig. 5;

Fig. 8 is a section taken on line F-F in Fig. 7; ^• and

•Fig. 9 is an enlargement of the area encircled in Fig. 5.

Referring to Fig. 1 of the drawings, a packer retriever of this invention is ah elongate assembly of parts, the main features of which are shown schematically to illustrate their sequential arrange- ment from top to bottom.

OMPI

The retriever 1 has a tubular bore 2 extending from end to end for throughflow of liquid. The assembly is attachable to a drill string by standard API conical . screwed connectors, for example as indicated at 3.. The assembly includes one or, preferably, more debris collectors (shown in part-section in Fig. 1). A packer miller 5 has radially extending fin-like projections 6 faced on their leading faces with tungsten carbide. A packer catcher consists of a catch sleeve 7 having a series of spring steel fingers arranged for spring-engagement in the mill-out extension bore of a packer.

A shear collar 8 is fixed by shear bolts or pins (and pin retainer screws) and is released by excessive pressure being applied to it during withdrawal of the retriever from the oil well. Once released the shear ring and catch sleeve fall into -engagement with a retaining ring 9. The assembly terminates in a milling head 10 dimensioned to pass through the bore of a packer to - remove any debris therein.

Liquid is pumped through the assembly during use to exit therefrom via ports located at 11 and 12 as debris-removing jets.

Referring to Figs. 2, 3 and 4, a packer miller 20 has an internal bore 21 with an exit port 22 for outflow as a jet of liquid pumped through the bore 21. The miller 20 carries a number, normally three, of radially directed .fin-like blades 23 (only one is shown in Figs. 2 and 3, for clarity) the leading faces and lower edges of which carry a dressing _. 24 of tungsten carbide as shown. Each blade 23 has a radially enlarged upper extension 25 angled to the blade as shown in Fig. 3. The diameter of the circle of rotation of blade extension 25 is approximately equal to that of the oil well in which the packerretriever is to be used, the

O WI

purpose being to assist centering of the retriever and more particularly to prevent damage to the well casing by the blades.23. An alternative arrangement which is not illustrated and which is convenient for larger. diameter wells is to provide further up the string a non-rotating ribbed rubber sleeve which has approximately the same diameter of the well.

Referring now to Figs. 5 to 8, a packer catcher 30 has a catch sleeve _. 31 which is of cylindrical form with a series of axial slots cut along part of its length forming a series of fingers. To impart more flexibility to the fingers and to provide a degree of stress relief a bore is provided extending from the head of each axial slot into the metal of the catcher. The. lower edge 32 of the sleeve 31 is of arrowhead shape in cross-section. This edge 32 bears on .the upper rim of a shear collar 33 which is fixed to the central tube of the retriever by one or more shear bolts or pins inserted in apertures 34 in the collar. At a lower level, a retaining collar 35 is provided to prevent loss of the shear collar 33 should it be released during use. The upper end of the catcher 30 engages a helical com¬ pression spring 36 held against a spring retainer 37 which is fixed to the central tube of the assembly. The lowest end of the retriever carries a milling head 38 which has the cross sectional shape shown in Fig. 6, having curved faces 39 and flat faces 40. The milling head 38 is dressed with tungsten carbide on the curved faces 39 and on its underside but the flat faces 40 are not so dressed. A liquid exit port 41 commun¬ icates with the internal bore of. the retriever assembly for outflow of a jet of liquid therefrom.

The manner of operation. of the packer retriever will now be described. The retriever is screwed to a drill string and lowered into the oil well from which a packer has ^' to be removed. The milling head 38 enters the bore of the packer which frequently

OMPI

contains debris. The retriever is then rotated and liquid is pumped through its internal bore. A jet of this liquid exits from port 41 in the milling head and flushes the debris up the well where it is caught in debris collectors 4 or carried to surface. The shape of the milling head 38 is such that it self-centres in the bore of the packer and the wide spaces between the flat faces 40 and the bore of the packer permit a fast free-flow jet of liquid to flush away large and small pieces of debris and swarf.

As the milling head 38 proceeds further through the packer, (and any string f pipes below) the packer catcher 31 passes progressively through the packer and into the mill-out extension of the packer. The length of the packer is known and if necessary an extension string may be included in the retriever to increase the distance between the miller 20-and the catcher 30.

The blades 23 contact the uppermost surface of the packer and begin to mill out the packer. A jet of liquid flowing from ports 22 sweeps swarf and debris upwards into the debris collectors 4 or to surface.

Once the milling has proceeded sufficiently to release the packer from the well casing ^" , the remains of the packer, and ancilliary pipework hung below, drop under gravity and are caught by catcher 30, the weight of the remains urging the catcher 30 against the shear collar 33 and splaying the fingers of the .catcher 30 outwards into tight gripping engagement with the packer remains. The packer is then with¬ drawn from the well. As withdrawal proceeds it is possible for the packer remains to tilt and jam against the well casing or for pieces of debris to become trapped between the packer and the casing causing the packer to jam. This, of course, puts considerable strain on the string and can indeed result in breakage

OM

at any point between the retriever and the surface.

The shear collar 33 of this invention is designed to prevent such breakage. The collar 33 is provided with a number of apertures 34 registering with apertures in the central tube. Before sending the retriever down-hole a number of shear bolts are screwed into these apertures to secure the collar. The number of the bolts and the shear strength of the material of which they are made determine the stress at which the bolts shear releasing the collar. The interaction between .the packer catcher 31 and the shear collar 33 is illustrated in greater detail in Fig. 9A and B. Fig. 9A shows a packer 50 (indicated by broken lines) held by the catcher 31 and bearing on the shear collar 33. Fig. 9B shows the relative position of these parts after release of the shear collar 33. A packer 51 is held by catcher 31 by means of a shoulder 51 on the mill-out extension, the shoulder bearing on sloping surface 52 of the catcher 31. If the stress preset by selection of the shear bolts located in apertures 34 is exceeded the bolts shear releasing the collar 33 which falls out of engagement with the catcher 31, the weight of the packer then compresses the sprung fingers- of the catcher releasing the grip on the packer and allowing the retriever to be withdrawn from the well. After resetting the shear bolts the retriever may again be sent down-hole and the retrieval operation begun afresh. The shear bolts may be screw-threaded bolts the shear strength of which is known or alternatively simple cylindrical pins may be used which are held in place by a separate screw-threaded plug.