US3348616A

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Publication number: US3348616A
Application number: US463289A
Authority: US
Inventors: Warren M Zingg
Original assignee: Dow Chemical Co
Current assignee: Dow Chemical Co
Priority date: 1965-06-11
Filing date: 1965-06-11
Publication date: 1967-10-24
Anticipated expiration: 1984-10-24

Description

JETTING DEVICE Filed June 11. 1965 2 Sheets-Sheet 1 I INVENTOR. Warren M. 2/719 HGENT Oct. 24, 1967 w. M. ZINGG 3,348,616

JETTING DEVICE 7 Filed June 11. 1965 2 she ts-sheet z IYNVENTOR. Warren M. Z ing 9 Eff/be I AGE/VT United States Patent 3,348,616 JETTING DEVICE Warren M. Zingg, Tulsa, Okla., assignor to The Dow Chemical Company, Midland, Mich., a corporation of Delaware Filed June 11, 1965, Ser. No. 463,289 6 Claims. (Cl. 166-223) This invention relates to jetting tools of the type used in oil or gas wells, and particularly to a jetting tool which is adapted for use in so-called open hole jetting service.

' Jetting tools for use in down-hole well treating or servicing use are well known in the art. An example of such a device is shown and claimed in US. Patent No. 3,066,- 735 issued Dec. 4, 1962, to Warren M. Zingg.

Most of the prior art jetting tools have been made for use in cased wells or for use where the surface against which the abrasive or other jet stream is directed is a short distance, e.g., less than 6 inches, from the body of the tool. Because the tool is usually used where the bore hole is liquid filled at the point of use, it can be appreciated that the distance between the jet nozzles and the surface to be worked on should be as small as practicable it really effective use of the jets is to be achieved.

However, since the jetting tool must be lowered through well casing, it can be appreciated that the overall diameter of the tool must be small (7" OD. casing is commonly used).

- Accordingly, a principal object of this invention is to provide an improved jetting tool for use in well treating service.

Another object of this invention is to provide an improved jetting tool which is adapted to be lowered into a well bore through well casing but is adapted for use against a surface which is substantially further distance from the tool than is the wall of the casing.

A further object of this invention is to provide an improved jetting tool which is adapted to be used to jet surfaces of a large diameter cavity in a bore hole but may be raised from and lowered to the bore hole cavity through a small diameter casing.

In accordance with this invention, there is provided a well jetting tool comprising an elongated rigid body member having tubular means extending along and mechanically coupled thereto. Jetting assemblies, adapted to swivel during use, are coupled to the tubular means at spaced apart intervals along the body member. The jetting assemblies include a swivel head and elongated jet tubes having jet nozzles at their outer extremities. Means are provided for controlling the degree of swiveling of the jetting assemblies.

The invention, as well as additional objects and advantages thereof, will best be understood when the following detailed description is read in connection with the accompanying drawing, in which:

FIG. 1 is a side elevational view, in section, of jetting apparatus in accordance with this invention;

FIG. 2 is a side elevational view taken 90 degrees from the view of FIG. 1;

FIG. 3 is a sectional view of a swivel element used in a jet assembly of FIG. 1; and

FIG. 4 is a sectional view taken along the line 4-4 of FIG. 3.

Referring to the drawings, there is shown a jetting tool, indicated generally by the numeral comprising anelongated body member 12 of solid bar stock having

coupling elements

14, 16 at each end.

A fluid flow line, indicated generally by thenumeral 18, extends from near thecoupling element 14 towards the lowerend coupling element 16 of thebody member 12. Theflow line 18 is threaded back and forth through the 3,348,616 Patented Oct. 24, 1967 bar-like body member in a plurality of loops. Theflow line 18 is welded or otherwise mechanically coupled to thebody member 12 each time it passes through the body member, as at 20', 22, 24, 26, for example.

A plurality of jet head assemblies, indicated generally by thenumeral 28, are coupled, by means of

tubes

30, 32, 34, 36 to theflow line 18. Each of the

tubes

30, 32, 34, 36 is fixedly secured, as by welds, for example, to thebody member 18.

Referring now to FIGS. 3 and 4, as well as to FIGS. 1 and 2, it may be seen that theswivel member 38 of thejet head assembly 28 includes a bolt-like element 40' having ahead 42, and acylindrical part 44 havingthreads 46 at its end which has reduced diameter. Abore 48 extends longitudinally from theend 50 of the element towards thehead 42. Across-bore 52 extends through thecylindrical part 44 of themember 38.

A pair of

grooves

54, 56 extend around the periphery of thecylindrical part 44, one groove being on each side of thebore 52. An 0

ring seal

58, 60 is disposed in each

groove

54, 56, respectively.

Acylindrical element 62 whose thickness is less than its diameter and whose diameter is substantially larger than the diameter of thecylindrical part 44, has an axially extendingbore 64 completely through it. Atransverse bore 66, havingthreads 68 at its outer end, extends from the periphery of theelement 62 to thebore 64. Thebore 66 is of smaller diameter than the distance between the

grooves

54, 56.

When theelement 62 is assembled over thecylindrical part 44 of theelement 38, the -O-

ring seals

58, 60 bear against the wall of thebore 64 and prevent leakage of fluid along thebore 64. Communication for fluid flow is provided through the

bores

48, 52 and 66.

As may be seen more clearly in FIGS. 1 and 2, an elbowtype flow element 70 is coupled to the threadedend 68 of thebore 66, with another elbowtype coupling element 72 being coupled to the output of theelement 70. Aflexible hose 74 having ajetting nozzle 76 coupled to one end, has its other end coupled to the output of theelement 72.

Thehose 74,nozzle 76,elements 70' and 72, and theelement 62 are so aligned that flow through them tends to cause movement of the mentioned elements along a single plane.

Stop means, in the form of aprotuberance 78 extending from thebody member 12 in the path of movement of theelement 70, is provided to prevent excessive rotation of thejetting assembly 38 as material is flowed therethrough.

In operation, thejetting tool 10 is cou led by means ofcoupling 14 to a string of tubing (not shown) and is lowered down a bore hole through casing until thetool 10 is beyond the casing and is adjacent to an enlarged part of the bore hole, such as where the bore hole had previously been shot with nitro glycerin, for example. If desired, additional tubing (not shown) may be coupled, as at 16, below thetool 10.

The string of tubing (not shown) which is attached to coupling 14 communicates withflow line 18 by a passageway throughcoupling element 19 which joinscoupling 14 andflow line 18. A suitable pumping means (not shown) is attached at the upper end of the string of tubing for forcing fluids and/or fluids plus abrasive material down theflow line 18 as'is well known in the art.

When the tool is in position, fluid is forced through theflow line 18 and through thejetting assemblies 38, causing the assemblies to rotate until stopped by the pins orprotuberances 78. Thepins 78 stop theassemblies 38 when thenozzles 76 are directed horizontally or nearly perpendicularly with respect to the longitudinal axis of thebody member 12.

Actually, as illustrated, thepins 78 cause thenozzles 76 to be directed at an angle about 30 degrees less than perpendicular with respect to thebody member 12.

Thus, as the jetting assemblies rotate, the nozzles are advanced towards the wall of the bore hole and the distance of the nozzles from thebody member 12 may be greatly in excess of the radius of the casing.

When the jetting treatment is completed, the jetting assemblies are free to return to their at rest position parallel to thebody member 12, thus permitting the jetting tool to be withdrawn from the bore hole through the casing.

The swiveled jetting assembly is threadedly coupled to theflow line 18 through the

tube

30, 32, 34, for example.

Flexible tubing 74 of different lengths may beused, the required length usually being determined after interpretation of a profile survey of the part of the bore hole to be jetted.

In practice,jet nozzles 76 having a inch orifice are commonly used. Because such orifices are easily plugged, it is often wise to mount a filter screen just above thetool 10 to prevent plugging of the jet nozzles by scale from the tubing or similar particulated materials.

The swivel arrangement of the jetting assemblies causes the jetting assemblies to fold downwardly towards thebody member 12 as the tool is raised into the casing in event the weight of the jet assembly does not cause this movement of its own accord.

Thus, this invention provides a simple, convenient to use means for jet cleaning and perforating of the walls of well bores Where the wall surface is beyond the effective distance of ordinary jetting tools.

What is claimed is:

1. A jetting tool assembly comprising an elongated body member having coupling means at least at one end thereof, a flow line extending along said body member and mechanically coupled thereto at intervals along its length, said flow line having a coupling element adjacent to an end of said body member, a plurality of swiveled jetting assemblies, said jetting assemblies being mechanically coupled to said body member and fluid flow coupled to said flow line at spaced apart intervals along the length of said body member, said jetting assemblies each comprising a swivel head having an offset flow member coupled there to and a jetting nozzle coupled to said offset flow member by a conduit.

2. A jetting tool assembly in accordance with claim 1, wherein stop means are provided for preventing excess movement of said swivel heads.

3. A jetting tool assembly in accordance with claim 1, wherein said jetting assemblies are coupled to more than one side of said body member.

4. A jetting tool assembly in accordance with claim 1, wherein said flow line passes through said body member at spaced apart intervals along said body member.

5. A jetting tool assembly in accordance with claim 1, wherein said conduit and nozzle are detachably coupled to said offset flow member.

6. A jetting tool assembly comprising an elongated body member having coupling means at least at one end thereof, a flow line extending along said body member and mechanically coupled thereto at intervals along its length, said flow line having a coupling element adjacent to an end of said body member, at least one swiveled jetting assembly, said jetting assembly being mechanically coupled to said body member and fluid flow coupled to said flow line, said jetting assembly comprising a swivel head having an offset flow member coupled there to and a jetting nozzle coupled to said offset flow member by a conduit.

References Cited UNITED STATES PATENTS 1,123,690 1/ 1915 Con-rade-r 166-223 1,524,592 l/'1925 Stephens 166-223 2,228,640 1/1941 ONeill 166-223 2,533,563 12/ 1950 Dobbs 166-223 3,224,506 12/ 1965 Huitt et al 166-223 CHARLES E. OCONNELL, Primary Examiner.

JAMES A. LEPPINK, Examiner.