GB1590452A

GB1590452A – Tubular-casing cutter
– Google Patents

GB1590452A – Tubular-casing cutter
– Google Patents
Tubular-casing cutter

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Publication number
GB1590452A

GB1590452A
GB17288/77A
GB1728877A
GB1590452A
GB 1590452 A
GB1590452 A
GB 1590452A
GB 17288/77 A
GB17288/77 A
GB 17288/77A
GB 1728877 A
GB1728877 A
GB 1728877A
GB 1590452 A
GB1590452 A
GB 1590452A
Authority
GB
United Kingdom
Prior art keywords
tool
blade
blade member
housing
piston
Prior art date
1976-04-26
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)

Expired

Application number
GB17288/77A
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)

Enterprises International Inc

International Enterprises Inc

Original Assignee
Enterprises International Inc
International Enterprises Inc
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
1976-04-26
Filing date
1977-04-26
Publication date
1981-06-03

1977-04-26
Application filed by Enterprises International Inc, International Enterprises Inc
filed
Critical
Enterprises International Inc

1981-06-03
Publication of GB1590452A
publication
Critical
patent/GB1590452A/en

Status
Expired
legal-status
Critical
Current

Links

Espacenet

Global Dossier

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Classifications

E—FIXED CONSTRUCTIONS

E21—EARTH DRILLING; MINING

E21B—EARTH DRILLING, e.g. DEEP DRILLING; OBTAINING OIL, GAS, WATER, SOLUBLE OR MELTABLE MATERIALS OR A SLURRY OF MINERALS FROM WELLS

E21B29/00—Cutting or destroying pipes, packers, plugs, or wire lines, located in boreholes or wells, e.g. cutting of damaged pipes, of windows; Deforming of pipes in boreholes or wells; Reconditioning of well casings while in the ground

E21B29/002—Cutting, e.g. milling, a pipe with a cutter rotating along the circumference of the pipe

E21B29/005—Cutting, e.g. milling, a pipe with a cutter rotating along the circumference of the pipe with a radially-expansible cutter rotating inside the pipe, e.g. for cutting an annular window

Description

PATENT SPECIFICATION
( 11) » ( 21) Application No 17288/77 ( 22) Filed 26 April 1977 ) ( 31) Convention Application No.
It 680 470 ( 32) Filed 26 April 1976 in 🙂 ( 33) United States of America (US) By ( 44) Complete Specification published 3 June 1981 ( 51) INT CL 3 E 21 B 29/00 ( 52) Index at acceptance B 3 C 1 B 6 D ( 54) TUBULAR-CASING CUTTER ( 71) We, INTERNATIONAL ENTERPRISES INC, a corporation organized and existing under the laws of the State of Texas, United States of America, of P O Box 90647, Houston, Texas 77090, United States of America, do hereby declare the invention, for which we pray that a patent may be granted to us, and the method by which it is to be performed, to be particularly described in and by the following statement:
This invention relates to a tool for cutting tubular casings.
In the drilling of oil wells it is often desirable and sometimes required to sever and recover the well casing In marine drilling the submarine well head equipment is very expensive and when the well is abandoned it can be recovered by severing the casings in the well bore and retrieving the severed casings and well head equipment Also in some locations, the submarine well head equipment and a portion of its casing must be recovered to assure that they do not become a hazard to navigation.
Prior to the present invention, there have been many casing cutters which are adapted to be lowered into a well bore and to sever the casing cemented therein The Sanford U S Patent Specification No.
3,331,439 discloses one form of such cutter.
This general type of casing cutter is illustrated in the drawings of the present application as a sample of the prior art Such patent discloses a cutter having arms that pivot outwardly from a point mounted on the body of the cutter and are of sufficient length so that they can move outward to cut the outermost casing which they will encounter In doing so, such blades cut a very substantial portion of the innermost casing and much of the cement between the casings before finally severing the outermost casing.
Another structure of the prior art is disclosed in the Kinzbach U S Patent Specification Nos 2,322,695 and 2,322,694 Such devices have arcuate cutting blades adapted to move outward but such cutters are not capable of cutting a large diameter swath as through a plurality of surrounding (concentric or eccentric) casings.
According to the present invention there is provided a tool for cutting tubular casings comprising:
a housing member rotatable about its 55 longitudinal axis and having a radial opening therethrough; a cutting blade member movably mounted with respect to said housing member for at least partial extension and retraction 60 through said opening, said blade member having a cutting portion; actuating means within said housing member and longitudinally movable in said housing member; 65 connection means pivotally connecting said blade member to said actuating means distal said cutting portion of said blade member; and guide means cooperative with said blade 70 member for translating a portion of the longitudinal force exerted on said blade member by said actuating means into a radial force whereby said blade member is moved in a path having both longitudinal 75 and radial components with respect to said housing member upon said longitudinal movement of said actuating means; wherein said connection means is circumferentially offset with respect to said 80 guide means.
These and other objects and advantages of the embodiments of the present invention will now be described by way of example with reference to the drawings 85 wherein:
Fig l is a view of the casing cutter of the present invention shown in the extended position wherein the cut of the outermost casing is complete The tool is 90 shown in quarter section and the casings are shown in sectional view to clearly illustrate the narrow swath cut by the blades.
Fig 2 is a partial sectional view of the casing cutter of the present invention show 95 ing the cutter blades in partially extended position.
Fig 3 is a partial sectional view of the casing cutter of the present invention showing the cutter blades in their retracted posi 100 1 5 ’90 452 1 590 452 tion during running in.
Fig 4 is a sectional view taken along line 4-4 of Fig 3 and showing the tool having three cutter blades.
Fig 5 is a view of the means connecting from the piston to the blade taken along line 5-5 in Fig 3.
Fig 6 is a sectional view similar to Fig.
3 showing a modified form of tool having five cutter blades.
Fig 7 is a sectional view of a prior art type of casing cutter to illustrate the swath cut by such cutter in severing all of the casings.
As shown in Figs 1 and 2, the preferred form of casing cutter includes the body A which is adapted to be connected to the drill string D as hereinafter described The cutter is adapted to be lowered into a well bore within the series of casings, C,, C and C 3, which are to be severed.
The casing cutter body A includes the upper housing 10 having internal threads which are adapted to receive the drill string D and the main body or housing 14 The housing 14 defines a central passageway through which fluid may be transmitted downwardly from the drill string D in the usual manner The interior of housing 14 is recessed to provide the cylinder 18 Cylinder 18 terminates in the shoulder 20 at its lower end The lower part of housing 14 defines a plurality of lateral openings 22 into which the blades 24 are positioned.
This can be best seen in Figs 1 and 4 The openings 22 extend radially through housing 14 to allow the blades to move outwardly as hereinafter described.
Actuating means 26 is provided within the housing 14 and includes the piston 28 which is adapted to slide within the cylinder 18 The spring 30 is positioned within the cylinder 18 in abutting relation between shoulder 20 and shoulder 32 defined on piston 28 This spring 30 exerts a force on piston 28 in the upward direction tending to return the piston 28 to its upper or retracted position as hereinafter explained.
In order to actuate the piston 28, a member with an orifice 34 is suitably secured within the interior of the piston 28 to create a restriction to the flow of fluid through the interior of the piston 28 With a sufficient flow of fluid this restriction creates a pressure above the piston greater than the pressure downstream of the orifice 34 to cause the piston to move downwardly within the cylinder 18 A suitable seal, such as 0ring 36, is provided on the exterior of the piston 28 and is adapted to seal against cylinder 18 Also suitable 0-ring 38 is provided to seal between the members with the orifice 34 and the piston 28 The lower portion of the piston 28 forms the tubular sleeve 40.
Each blade 24 comprises a convex surface 24 a facing radially inwardly when the blade is in its retracted position (Fig 3), a parallel concave surface 24 b facing radially outwardly when the blade is in its retracted 70 position, and parallel planar side surfaces 24 c which lie in generally radial planes.
With the movement within the housing 14 being provided by the actuating means 26, a suitable connecting means is provided to 75 transmit the longitudinal force developed by the piston 28 responsive to the pressure differential thereacross to the cutting blades 24 The connecting means includes the inserts 44 which are secured in an annular 80 external groove 45 around the lower end of piston 28 by the screws 46 The inserts 44 each have a pin 47 projecting outwardly from both sides as shown in Fig.
Such pins 47 are adapted to be posi 85 tioned in the slot 48 defined in the blade 24.
The pin 47 is preferably mounted within insert 44 by the bushings 49 which allow the pin to rotate when it is in tight engagement with one side of the slot 48 (to be 90 described more fully below) to reduce friction as the pin and slot move relative to each other.
Each of the pins 47 and its corresponding insert 44 is slidably received in a slot 48 95 in a respective one of the blades 24 As viewed looking toward the top end surface of the blade, each slot 48 is generally Tshaped (see Fig 5 and left side of Fig 1).
Each slot 48 is also extended in a gener 100 ally radial direction, as shown in dotted lines in Figs 1-3, for a purpose to be described more fully below Pins 47 impart the longitudinal forces of the piston 28 to the blades 24 during extension and retrac 105 tion thereof.
For proper operation of the blade, a suitable guiding means is provided in a location circumferentially offset from the interconnection means 47, 48 to guide the move 110 ment of the blade in a path which is generally arcuate in a longitudinal plane and to translate a part of the longitudinal downward piston force into a radial outward extension and cutting and cutting force on 115 the blades 24 against the well casings Such guiding means includes the arcuate keys 52 which are secured to or integral with each side 24 c of the blades 24 and the mating arcuate slots 53 which are formed in wear 120 plates 54 Plates 54 are suitably secured to the sides of openings 22 The slots 53 are arcuate in shape as are the keys 52 on the blades 24.
The blades 24 are preferably arcuate 125 shaped, as shown, with a radius of curvature corresponding to that of keys 52 and having their outer ends pointed Such outer end portion of the blades and all portions of the blades coming into cutting engage 130 1 590 452 ment either with the casing or the cement between the casings may be suitably surfaced with hard-facing material adapted for cutting in such situations, such as tungsten carbide.
As can be seen in a comparison of Figs.
1, 2 and 3, the improved casing cutter of the present invention is connected onto a drill string D and run into the well bore with the parts in the positions shown in Fig 3 When the cutter is at the level at which it is desired that the casings be severed, fluid flow through the drill string is commenced together with rotation of the drill string The rotation of the drill string D rotates the casing cutter and the flow of the fluid downward through the drill string D creates a pressure difference across the actuating means causing the piston 28 to move downwardly and exert a downward force on the pins 47 and on the slots 48 in the cutter blades 24.
As the blades begin to move downwardly, the keys 52 and slots 53 guide them in the aforementioned arcuate path To follow such a path, the blades must move downwardly with respect to housing 14 and must also pivot outwardly The pins 47 with slots 48 provide for such pivoting However, it can be seen that as the lower end of the blade 24 moves outwardly in the arcuate path from the position of Fig 3 to that of Fig 2, the upper end of the blade must move radially inwardly somewhat.
The extension of slot 48 in the generally radial direction allows such relative movement of the upper end of the blade 24 with respect to the pin 47 Thus with blade 24 in the position of Fig 3, the pin 47 is located at the radially inner end of slot 48.
As the upper end of blade 24 moves toward the center of the arcuate slot 53, the relative positions change so that the pin 47 is adjacent the radially outer end of the slot 48 (see Fig 2) Then upon further downward movement of the piston 28, the upper end of blade 24 begins to move radially outwardly so that, when the blade is fully extended as shown in Fig 1, the pin 47 is so once again adjacent the inner end of slot 48.
Guide means 52, 53 force the cutter blades outwardly into cutting engagement with the inner casing C 1 by translating longitudinal force to radial force As cutting progresses responsive to rotation, the pressure created by the flow of fluid downwardly through the orifice 34 creates an outwardly directed force on the cutter blades 24 which is sufficient for causing the cutter blades to cut the narrow arcuate swath 58 as clearly shown in Fig 1 The swath 58 is arcuate in longitudinal cross section and its vertical dimension is not substantially greater than the thickness of the blades 24 measured between surfaces 24 a and 24 b.
The swath 58 is cut primarily by the leading edge of the blade 24 as it gradually moves downwardly and outwardly in its arcuate path (compare Figs 2 and 1) 70 The elongate ribs 52 provide a substantial bearing surface Furthermore, ribs 52 fill the slots 53 during running-in and retrieval to prevent the latter from becoming fouled with debris, etc 75 It can be seen that, because the guide means 52, 53 are disposed radially outwardly of the outer diameter of sleeve 40, they offer no impedance to the downward movement of the latter which may move into the 80 position of Fig 1.
It can be seen that with the guiding means shown, the openings 22 are positioned and the blades 24 are shaped so that the part of the tool disposed radially inwardly of 85 the blades 24 in their retracted position (Fig.
3) has an unrestricted movement past a substantial portion of the lengths of the blades Thus the sleeve 40, which is attached to the upper end of the blades, is 90 free to move downwardly a substantial distanqe into the area adjacent the space which was previously occupied by the blades (Fig 3) The guide means do not impede this motion 95 This in turn allows the blades to be extended radially outwardly of the housing 14 over a major portion of their lengths which permits a large diameter swath to be cut without excessive blade length Thus 100 the tool may cut a plurality of concentric or eccentric casings, yet it is relatively compact.
Other embodiments of guide means might be used in the tool of the present invention 105 For example, while the guide means preferably define a blade path which is arcuate in a longitudinal plane, the path may be other than arcuate as long as it includes both longitudinal and radial components 110 of direction whereby a portion of the downward force of the piston 28 is translated into an outward force on the blades For example, the path might describe an elliptical arc or even a straight line at an acuate 115 angle to the tool centerline.
When cutting is completed the passage of fluid downwardly through the drill string D is stopped and spring 30 urges piston 28 upwardly within cylinder 18 This results 120 in piston 28 and connecting means 42 moving upwardly to retract the blades 24 into their respective openings 22 as in the running-in position of Fig 3 When the blades are fully retracted the drill string D may 125 be retrieved.
The minimum size of the swath 58 cut by the improved casing cutter of the present invention can be best seen when it is compared to the very substantial bell 130 1 590 452 shaped swath 82 cut by the casing cutter 70 of the prior art as shown in Fig 7 From this illustration it can be seen that the cutter blades 72 pivot about the pin 74 and cut the bell-shaped area 82 in extending outwardly to cut the outermost of the casings.
A modified form of the present invention is shown in Fig 6 wherein five arcuate cutting blades 66 are shown mounted by the keys 68 to the blade housing 60.

Claims (1)

WHAT WE CLAIM IS:
1 A tool for cutting tubular casings comprising:
a housing member rotatable about its longitudinal axis and having a radial opening therethrough; a cutting blade member movably mounted with respect to said housing member for at least partial extension and retraction through said opening, said blade member having a cutting portion; actuating means within said housing member and longitudinally movable in said housing member; connection means pivotally connecting said blade member to said actuating means distal said cutting portion of said blade member; and guide means cooperative with said blade member for translating a portion of the longitudinal force exerted on said blade member by said actuating means into a radial force whereby said blade member is moved in a path having both longitudinal and radial components with respect to said housing member upon said longitudinal movement of said actuating means; wherein said connection means is circumferentially offset with respect to said guide means.
2 A tool as claimed in claim 1 wherein said actuating means includes a piston slidably mounted in said housing.
3 A tool as claimed in claim 2 wherein said piston is movable in one longitudinal direction to extend said blade member by application of fluid pressure to the interior of said housing member, said piston having an aperture permitting leakage of fluid in said one longitudinal direction, and said actuating means further comprising return means for moving said piston in the other longitudinal direction to retract said blade upon relief of said fluid pressure.
4 A tool as claimed in claim 3 wherein said return means comprises a spring interposed between said piston and said housing member.
A tool as claimed in any preceding claim wherein said blade member has at least one generally radially extending side and wherein said guide means is cooperative 65 with said side of said blade.
6 A tool as claimed in claim 5 wherein said blade member has another generally radially extending side opposite said one side, and said tool further comprising an 70 other such guide means cooperative with said other side of said blade member.
7 A tool as claimed in any preceding claim further comprising a plurality of said blade members, said housing having a 75 plurality of such radial openings for respective ones of said blade members.
8 A tool as claimed in any preceding claim wherein said connection means permits relative radial movement between said g blade member and said actuating means adjacent the pivot point.
9 A tool as claimed in any preceding claim wherein said guide means includes interengageable means projecting from one 85 of said members and received by the other of said members.
A tool as claimed in claim 9 wherein said projecting means extends along a path parallel to that of said blade 9 ( 11 A tool as claimed in claim 10 wherein said projecting means comprises an elongate rib or key on said one member, said receiving means comprising a mating elongate slot on the other of said members 95 12 A tool as claimed in claim 11 wherein said one member is said blade member and said other member is said housing member.
13 A tool as claimed in claim 12 where 1 (X) in said elongate slot on said housing member is formed on a generally radially extending surface of said housing member partially defining said opening.
14 A tool as claimed in any preceding 105 claim wherein said path of said blade member is arcuate.
A tool as claimed in claim 14 wherein said blade member is arcuate complimentary to its path 110 16 A tool for cutting tubular casings as claimed in claim 1 and substantially as hereinbefore described.
CRUIKSHANK & FAIRWEATHER Chartered Patent Agents, 19 Royal Exchange Square, Glasgow GI 3 AE, Scotland.
Agents for the Applicants.
Printed for Her Majesty’s Stationery Office by The Tweeddale Press Ltd, Berwick-upon-Tweed, 1981.
Published at the Patent Office, 25 Southampton Buildings, London, WC 2 A l AY, from which copies may be obtained.

GB17288/77A
1976-04-26
1977-04-26
Tubular-casing cutter

Expired

GB1590452A
(en)

Applications Claiming Priority (1)

Application Number
Priority Date
Filing Date
Title

US05/680,470

US4068711A
(en)

1976-04-26
1976-04-26
Casing cutter

Publications (1)

Publication Number
Publication Date

GB1590452A
true

GB1590452A
(en)

1981-06-03

Family
ID=24731250
Family Applications (1)

Application Number
Title
Priority Date
Filing Date

GB17288/77A
Expired

GB1590452A
(en)

1976-04-26
1977-04-26
Tubular-casing cutter

Country Status (5)

Country
Link

US
(1)

US4068711A
(en)

JP
(1)

JPS52132487A
(en)

DE
(1)

DE2718321A1
(en)

FR
(1)

FR2361187A1
(en)

GB
(1)

GB1590452A
(en)

Cited By (2)

* Cited by examiner, † Cited by third party

Publication number
Priority date
Publication date
Assignee
Title

GB2163075A
(en)

*

1984-08-16
1986-02-19
Sarkis Sa
Process and tool for boring cavity holes

GB2429423A
(en)

*

2005-08-27
2007-02-28
Monument Tools Ltd
Cutting Device

Families Citing this family (26)

* Cited by examiner, † Cited by third party

Publication number
Priority date
Publication date
Assignee
Title

US4817725A
(en)

*

1986-11-26
1989-04-04
C. «Jerry» Wattigny, A Part Interest
Oil field cable abrading system

US4838354A
(en)

*

1986-12-11
1989-06-13
C. «Jerry» Wattigny
Down hole oil field clean-out method

US5076365A
(en)

*

1986-12-11
1991-12-31
Charles D. Hailey
Down hole oil field clean-out method

NO164118C
(en)

*

1987-07-30
1990-08-29
Norsk Hydro As

HYDRAULIC OPERATED ROEMMER.

US5086852A
(en)

*

1990-08-27
1992-02-11
Wada Ventures
Fluid flow control system for operating a down-hole tool

US5735359A
(en)

*

1996-06-10
1998-04-07
Weatherford/Lamb, Inc.
Wellbore cutting tool

US5732770A
(en)

*

1996-08-02
1998-03-31
Weatherford/Lamb, Inc.
Wellbore cutter

US7552776B2
(en)

*

1998-12-07
2009-06-30
Enventure Global Technology, Llc
Anchor hangers

US7410000B2
(en)

*

2001-01-17
2008-08-12
Enventure Global Technology, Llc.
Mono-diameter wellbore casing

US7793721B2
(en)

2003-03-11
2010-09-14
Eventure Global Technology, Llc
Apparatus for radially expanding and plastically deforming a tubular member

GB2418942B
(en)

*

2002-06-10
2006-09-27
Enventure Global Technology
Mono Diameter Wellbore Casing

US7886831B2
(en)

2003-01-22
2011-02-15
Enventure Global Technology, L.L.C.
Apparatus for radially expanding and plastically deforming a tubular member

GB2433281B
(en)

*

2003-01-27
2007-08-01
Enventure Global Technology
Lubrication system for radially expanding tubular members

GB2430953B
(en)

*

2003-03-11
2007-12-19
Enventure Global Technology
Apparatus and method for cutting a tubular

US8424607B2
(en)

*

2006-04-25
2013-04-23
National Oilwell Varco, L.P.
System and method for severing a tubular

AU2007258906B2
(en)

*

2006-06-10
2012-10-04
Paul Bernard Lee
Expandable downhole tool

US7581591B2
(en)

*

2007-01-30
2009-09-01
Liquid Gold Well Service, Inc.
Production casing ripper

US7644763B2
(en)

*

2007-03-26
2010-01-12
Baker Hughes Incorporated
Downhole cutting tool and method

US7575056B2
(en)

2007-03-26
2009-08-18
Baker Hughes Incorporated
Tubular cutting device

US20130220615A1
(en)

*

2012-02-23
2013-08-29
Longyear Tm, Inc.
Internal tubing cutter

US9388638B2
(en)

*

2012-03-30
2016-07-12
Baker Hughes Incorporated
Expandable reamers having sliding and rotating expandable blades, and related methods

WO2014077810A1
(en)

*

2012-11-15
2014-05-22
Halliburton Energy Services, Inc.
Reduced outer diameter expandable perforator

CN105298423A
(en)

*

2015-11-16
2016-02-03
中国石油集团海洋工程有限公司
Hydraulic cutter for one-time cutting of multi-layer casing

US10808481B2
(en)

2017-11-16
2020-10-20
Weatherford Technology Holdings, Llc
Apparatus and method for cutting casings

US10900336B2
(en)

2018-10-02
2021-01-26
Exacta-Frac Energy Services, Inc.
Mechanical perforator with guide skates

US10947802B2
(en)

2018-10-09
2021-03-16
Exacta-Frac Energy Services, Inc.
Mechanical perforator

Family Cites Families (9)

* Cited by examiner, † Cited by third party

Publication number
Priority date
Publication date
Assignee
Title

US981306A
(en)

*

1909-10-04
1911-01-10
James Pollock
Mining-tool.

US973994A
(en)

*

1909-10-20
1910-10-25
John C Swan
Casing-perforator.

US1485642A
(en)

*

1922-04-11
1924-03-04
Diamond Drill Contracting Comp
Expanding rotary reamer

US1777713A
(en)

*

1928-01-14
1930-10-07
Samuel O Braden
Pipe cutter

US1814048A
(en)

*

1928-03-22
1931-07-14
American Iron & Machine Works
Inside casing or tool joint cutter

US1913686A
(en)

*

1930-01-31
1933-06-13
Chicago Telephone Supply Co
Rheostat

US2322695A
(en)

*

1942-05-11
1943-06-22
Robert B Kinzbach
Pipe milling device

US2705998A
(en)

*

1950-11-08
1955-04-12
Spang & Company
Ripper for well casing

FR1121402A
(en)

*

1954-03-27
1956-08-14

Method for scouring underground cavities and excavating apparatus for the application of said method

1976

1976-04-26
US
US05/680,470
patent/US4068711A/en
not_active
Expired – Lifetime

1977

1977-04-25
DE
DE19772718321
patent/DE2718321A1/en
not_active
Withdrawn

1977-04-25
FR
FR7712467A
patent/FR2361187A1/en
active
Granted

1977-04-26
GB
GB17288/77A
patent/GB1590452A/en
not_active
Expired

1977-04-26
JP
JP4748077A
patent/JPS52132487A/en
active
Pending

Cited By (3)

* Cited by examiner, † Cited by third party

Publication number
Priority date
Publication date
Assignee
Title

GB2163075A
(en)

*

1984-08-16
1986-02-19
Sarkis Sa
Process and tool for boring cavity holes

GB2429423A
(en)

*

2005-08-27
2007-02-28
Monument Tools Ltd
Cutting Device

GB2429423B
(en)

*

2005-08-27
2009-08-12
Monument Tools Ltd
Cutting device

Also Published As

Publication number
Publication date

DE2718321A1
(en)

1977-11-10

JPS52132487A
(en)

1977-11-07

US4068711A
(en)

1978-01-17

FR2361187B3
(en)

1981-11-27

FR2361187A1
(en)

1978-03-10

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1980-01-01

Underreamer having cutter arm position indication

US20200332617A1
(en)

2020-10-22

Blowout Preventer Shearing Ram

Legal Events

Date
Code
Title
Description

1981-08-19
PS
Patent sealed [section 19, patents act 1949]

1986-12-17
PCNP
Patent ceased through non-payment of renewal fee

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