US2710171A - Hydraulic well jar - Google Patents
Hydraulic well jar Download PDFInfo
- Publication number
- US2710171A US2710171A US295201A US29520152A US2710171A US 2710171 A US2710171 A US 2710171A US 295201 A US295201 A US 295201A US 29520152 A US29520152 A US 29520152A US 2710171 A US2710171 A US 2710171A
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- Prior art keywords
- mandrel
- chamber
- hydraulic
- bore
- hammer
- Prior art date
- 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 - Lifetime
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- 239000012530 fluid Substances 0.000 description 21
- 239000002131 composite material Substances 0.000 description 5
- 230000000694 effects Effects 0.000 description 4
- 238000007789 sealing Methods 0.000 description 4
- 238000010276 construction Methods 0.000 description 3
- 230000015572 biosynthetic process Effects 0.000 description 1
- 239000003129 oil well Substances 0.000 description 1
Images
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
- E21B31/00—Fishing for or freeing objects in boreholes or wells
- E21B31/107—Fishing for or freeing objects in boreholes or wells using impact means for releasing stuck parts, e.g. jars
- E21B31/113—Fishing for or freeing objects in boreholes or wells using impact means for releasing stuck parts, e.g. jars hydraulically-operated
Definitions
- This invention relates to an oil well tool and particularly to a hydraulic well jar of the type adapted to be connected at its lower end to a stuck member to be jarred and at its upper end to a drill string, by which the hydraulic well jar can be operated to subject the stuck member to a succession of jarring blows.
- valve member tightly fits within a small bore and is adapted to be forced from the small bore into a larger bore, and during its movement in the small bore to force trapped hydraulic tluid from within the large bore past the valve member into the small bore.
- This resistance to movement of the valve member is utilized to stretch the drill string so that upon full entry of the valve member into the large bore,
- valve member therefore, also functions as the hammer and is normally referred to as a hammer, although it performs both functions of a valve member and a hammer.
- the hammer is submerged in hydraulic fluid and it has been discovered that there is a cushioning effect unavoidably created between the hammer and anvil due to the rush of hydraulic fluid past the opposing faces of the hammer and anvil as the two members move together to effect a jarring blow. Furthermore, the hammer becomes deformed during use and, therefore, no longer properly tits within the small bore, and consequently the jarring action tends to become erratic and unpredictable.
- a main object of the present invention is to provide a hydraulic well jar overcoming the above disadvantageous operating characteristics by including a separate valve member disposed within a hydraulically lilled chamber and a separate hammer connected to the valve member but disposed in a vacant or dry chamber, i. e., one not 1 filled with hydraulic fluid, so that the hammer can strike the anvil ⁇ without the creation of a cushioning eiect, and the valve can properly operate without being battered ⁇ or deformed by striking the anvil.
- a further object of the present invention is to provide F a hydraulic jar having a novel diaphragm construction for preventing the creation of voids in the hydraulic uid chamber.
- FIGs. la and lb are successive longitudinal mid-sectional views of a hydraulic well jar embodying the concepts of the present invention, showing the tool at the begin ning of a cycle of operation with the hammer spaced from the anvil andthe valve member disposed within the small bore.
- FigsQZa and 2b are views similar to Figs. 1a and lb but show the parts in the positions they assume at the instant of impact between the hammer and anvil.
- Fig. 3 is a cross-sectional view of the tool taken. along line 3-3 of Fig. l.
- Sttes Patent Pr tu ICC Fig. 4 is a cross-sectional view of the tool taken along line 4 4 of Fig. l.
- a hydraulic well jar comprising two main parts, an outer composite tubular mandrel 9 connected at its upper end by a sub 11 to the lower end of a drill string 13, and an inner composite tubular mandrel 15 telescopically received within the outer mandrel and connected at its lower end by a subV 17 to the upper end of a stuck member 19.
- Outer composite tubular mandrel 9 includes a tubular valve housing 21 lled with hydraulic fluid such as oil, and having formed therein a small bore 23 and a somewhat larger bore 25 disposed beneath the small bore and in direct communication therewith.
- Valve member 27 constitutes an enlargement on a tubular valve section 29 of inner composite tubular mandrel 15.
- the small bore v23 is of such size as to form a tight it with the valve member Z7', and large bore 2S is of such size as to freely accommodate said valve member.
- 'Valve member 27 includes a bottom portion 31 having an unbroken exterior so as to form a plug within a small bore 23, and an upper portion 32 having longitudinally extending by-pass grooves 33 formed therein. Upper portion 32 is arranged so that it is never entirely withdrawn from the small bore and, therefore, forms a pilot for ready passage for the plug portion 31 into the small bore (into which it tightly nts). Upper grooved portion 32 functions to allow duid to freely pass fromthe large bore into the small bore once the plug portion 31 has been forced out of said small bore. j
- valve housing 21 Threadedly connected to the lower end of valve housing 21 is a sub 35, which forms a part of the outer composite tubular mandrel 9 and slldably receives the lower reduced end of inner tubular valve section 29.
- Sub 35 is connected at its lower end to an anvil sub 39, within which is slidably disposed a tubular hammer section 41 having formed on its upper end an enlarged hammer head 43.
- Hammer head 43 is threadedly connected to the lower end of tubular valve section 29 and is adapted to violently strike an anvil 45 formed on the upper end of anvil sub 39.
- Hammer head 43 and sub 35 are nonrotatably connected by a spline formation at 47, see Fig. 4.
- Sub 35 forms a vacant housing Within which the' hammer head operates and this housing is sealed off from the hydraulic fluid by O rings 37, previously mentioned, and from well fluid by O rings t9 provided on the interior of anvil sub 39 in sealing engagement with tubularhammer section 41.
- valve member 27 is disposed within small bore 23 and is maintained in somewhat the same absolute position during operation of the hydraulic jar because of its connection to the stuck member 19.
- outer tubular mandrel 9 is pulled upwardly forcing the hydraulic uid trapped in housing 21, between sub 35 and valve member 27, upwardly between the exterior of said valve member and the walls of small bore 23 into the uppervend of said small bore.
- valve member 27 at the end of the stroke of the housing 21 is still spaced from the upper end of sub 35 so that no cushioning effect is created in the valve chamber. It is further pointed out that since the valve member does not strike the anvil, it is not deformed or battered and will continue to properly tit within the small bore and insure proper operation of the well jar.
- valve housing 21 readily moves down relative to valve member 27 with the fluid by-passing through grooves 33.
- Suitable spring-loaded ball valves 51 are provided in valve member 27 to allow hydraulic uid to by-pass the valve member through bypass ducts 53 formed in said valve member, upon entrance of the plug portion 31 of said valve member into small bore 23, to readily allow full retraction of the valve member within said small bore.
- the upper end of lower sub 17 engages the lower end of anvil sub 39 to limit downward movement of housing 21 relative to valve member 27.
- Housing 21 is connected at its upper end to the lower end of top Sub 11, said top sub having a reduced depending tubular portion 55 slidably received about the upper end of tubular valve section Z9, and having its exterior spaced from the interior of valve housing 21 as is apparent from the drawings.
- O ring seals 56 are provided on the interior of tubular portion 55 in sealing engagement with tubular valve section 29.
- sub 11 Adjacent the upper end or tubular portion 55, sub 11 is formed with an annular step 57 which receives thereon the upper end of a sleeve type flexible diaphragm 59, the interior of which is spaced from the exterior of tubular portion 55 to provide a reserve oil space 61.
- the upper end of diaphragm 59 is secured to step 57 and the lower end of said diaphragm is secured to the exterior of a ring 63, which is connected to the lower end of tubular portion 55.
- Ring 63 carries on its exterior an O ring seal 65 in sealing engagement with the interior of valve housing 2l, and has oil passages 67 extending axially therethrough to provide communication between the oil reserve space 61 and the interior of valve housing 21.
- Valve housing 2l is ported at 69 and annularly relieved at 71 so as to subject the exterior of diaphragm 59 to the well pressure.
- the diaphragm will iiex under the influence of the well pressure to an extent to prevent the creation of any voids in the hydraulic iluid chamber dened by the housing 21, particularly upon the unavoidable escape of hydraulic fluid therefrom such as past O rings 56.
- a hydraulic well jar has been provided in which the anvil and hammer are permitted to more violently come into impact because the hammer operates in a vacant instead ota hydraulic uid-lled chamber. Furthermore, the valve member is separate from but connected to the hammer and so docs not come into violent engagement with any abutment, and therefore its proper 'ht within the small bore of the tool is assured, and therefore proper operation ot the tool is attained.
- a hydraulic well jar comprising a tubular body adapted to be connected at its upper end to a supporting string of pipe and reciprocably receiving a mandrel which is adapted to be connected at its lower end to a member to be jarred, said body having an upper enlarged bore portion forming a uid-lled chamber and a lower enlarged bore portion forming a vacant chamber, the bore between said chambers being restricted and the walls thereof sealingly engaging the mandrel, the fluid-filled chamber having a portion of slightly smaller diameter than the remainder of said chamber, an enlargement on said mandrel forming a valve adapted to slidably engage said smaller diameter portion, said valve being adapted to retard movement of said mandrel relative to said body when in said smaller portion and then suddenly release the tubular body from the mandrel in response to an upward pull on the body when it leaves said smaller portion, one end wall of said vacant chamber constituting a hammer adapted to strike an anvil within said chamber and fixed to said mandrel upon release
- a hydraulic well jar comprising a tubular body adapted to be connected at its upper end to a supporting string of pipe and reciprocably receiving a mandrel which is adapted to be connected at its lower end to a member to be jarred, said body having an upper enlarged bore portion forming a fluid-filled chamber and a lower enlarged bore portion forming a vacant chamber, the bore between said chambers being restricted and the walls thereof sealingly engaging the mandrel, the fluid-filled chamber having a portion of slightly smaller diameter than the remainder of said chamber, an enlargement on said mandrel forming a valve adapted to slidably engage said smaller diameter portion, said valve being adapted to retard movement of said mandrel relative to said body when in said smaller portion and then suddenly release the tubular body from the mandrel in response to an upward pull on the body when it leaves said smaller portion, one end wall of said vacant chamber constituting a hammer adapted to strike an anvil within said Chamber and fixed to said mandrel upon release of the tubular body,
- a hydraulic well jar comprising a tubular body adapted to be connected at its upper end to a supporting string of pipe and reciprocably receiving a mandrel which is adapted to be connected at its lower end to a member to be jarred, said body having a liuid-lled chamber connected to a vacant chamber by a bore through which the mandrel extends, means for preventing lluid flow between the mandrel and the walls of the bore, a sudden release hydraulic valve in the fluid-filled chamber carried by the mandrel and cooperable with small and large bores in the duid-filled chamber to retard and then suddenly release the tubular body from the mandrel in response to an upward pull on the body, one end wall of said vacant chamber constituting a hammer adapted to strike an anvil within said chamber and tixed to said mandrel upon release of the body, and a resilient sleeveshaped diaphragm fastened at both its ends to the wall of the fluid-filled chamber and having its exterior in communication
- a hydraulic well jar comprising a tubular body adapted to be connected at its upper end to a supporting string of pipe and reciprocably receiving a mandrel which is adapted to be connected at its lower end to a member 10 to be jarred, said body having a uid-lled chamber connected to a vacant chamber by a bore through which the mandrel extends, means for preventing fluid flow between the mandrel and the walls of the bore, a sudden release hydraulic valve in the Huid-filled chamber carried by the mandrel and cooperable with small and large bores in the fluid-filled chamber to retard and then suddenly release the tubular body from the mandrel in response to an upward pull on the body, one end wall of said vacant chamber constituting a hammer adapted to strike an anvil within said chamber and lixed to said mandrel upon release of the body, a resilient sleeve-shaped diaphragm fastened at both its ends to the wall of the uid-flled chamber and having its
Description
E. w. BAGNELL. 2,710,171
HYDRAULIC WELL JAR June 7, 1955 2 SheetsfvSheet l Filed June 24, 1952 N m i gi F/e, fb, www MJ Mw June 7, 1955 E, w. BAGNLL' 2,710,171
HYDRAULIC WELL JAR 2 Sheets-She-et 2 Filed June 24, 1952 ls-s 1 n Dl/ EDGQQ UJ. BQGNELL INVENTOR.
d En@ c HYDRAULIC WELL JAR Edgar W. Bagnell, Glendale, Calif., assigner to Johnston Testers, Inc., Houston, Tex., a corporation of Delaware Application .lune 24, 1952, Serial No. 295,231
4 Claims. (Cl. Z55-27) This invention relates to an oil well tool and particularly to a hydraulic well jar of the type adapted to be connected at its lower end to a stuck member to be jarred and at its upper end to a drill string, by which the hydraulic well jar can be operated to subject the stuck member to a succession of jarring blows.
in certain types of conventional hydraulic jars, for example that shown in the patent to W. B. Wigle, No. 1,637,505, granted August 2, 1927, a valve member tightly fits within a small bore and is adapted to be forced from the small bore into a larger bore, and during its movement in the small bore to force trapped hydraulic tluid from within the large bore past the valve member into the small bore. This resistance to movement of the valve member is utilized to stretch the drill string so that upon full entry of the valve member into the large bore,
the resistance movement is suddenly released to allow the valve member to strike an anvil. The valve member, therefore, also functions as the hammer and is normally referred to as a hammer, although it performs both functions of a valve member and a hammer.
There are several disadvantages to this construction. The hammer is submerged in hydraulic fluid and it has been discovered that there is a cushioning effect unavoidably created between the hammer and anvil due to the rush of hydraulic fluid past the opposing faces of the hammer and anvil as the two members move together to effect a jarring blow. Furthermore, the hammer becomes deformed during use and, therefore, no longer properly tits within the small bore, and consequently the jarring action tends to become erratic and unpredictable.
A main object of the present invention is to provide a hydraulic well jar overcoming the above disadvantageous operating characteristics by including a separate valve member disposed within a hydraulically lilled chamber and a separate hammer connected to the valve member but disposed in a vacant or dry chamber, i. e., one not 1 filled with hydraulic fluid, so that the hammer can strike the anvil `without the creation of a cushioning eiect, and the valve can properly operate without being battered `or deformed by striking the anvil. Y
A further object of the present invention is to provide F a hydraulic jar having a novel diaphragm construction for preventing the creation of voids in the hydraulic uid chamber.
Various other objects of the present invention will be apparent from the following description taken in connection with the accompanying drawings, wherein:
`Figs. la and lb are successive longitudinal mid-sectional views of a hydraulic well jar embodying the concepts of the present invention, showing the tool at the begin ning of a cycle of operation with the hammer spaced from the anvil andthe valve member disposed within the small bore.A
FigsQZa and 2b are views similar to Figs. 1a and lb but show the parts in the positions they assume at the instant of impact between the hammer and anvil.
Fig. 3 is a cross-sectional view of the tool taken. along line 3-3 of Fig. l.
Sttes Patent Pr tu ICC Fig. 4 is a cross-sectional view of the tool taken along line 4 4 of Fig. l.
Referring to the accompanying drawings wherein similar reference characters designate similar parts throughout, there is disclosed a hydraulic well jar comprising two main parts, an outer composite tubular mandrel 9 connected at its upper end by a sub 11 to the lower end of a drill string 13, and an inner composite tubular mandrel 15 telescopically received within the outer mandrel and connected at its lower end by a subV 17 to the upper end of a stuck member 19.
Outer composite tubular mandrel 9 includesa tubular valve housing 21 lled with hydraulic fluid such as oil, and having formed therein a small bore 23 and a somewhat larger bore 25 disposed beneath the small bore and in direct communication therewith. Valve member 27 constitutes an enlargement on a tubular valve section 29 of inner composite tubular mandrel 15. The small bore v23 is of such size as to form a tight it with the valve member Z7', and large bore 2S is of such size as to freely accommodate said valve member.
'Valve member 27 includes a bottom portion 31 having an unbroken exterior so as to form a plug within a small bore 23, and an upper portion 32 having longitudinally extending by-pass grooves 33 formed therein. Upper portion 32 is arranged so that it is never entirely withdrawn from the small bore and, therefore, forms a pilot for ready passage for the plug portion 31 into the small bore (into which it tightly nts). Upper grooved portion 32 functions to allow duid to freely pass fromthe large bore into the small bore once the plug portion 31 has been forced out of said small bore. j
Threadedly connected to the lower end of valve housing 21 is a sub 35, which forms a part of the outer composite tubular mandrel 9 and slldably receives the lower reduced end of inner tubular valve section 29. There are high pressure O ring seals 37 provided on the interior of sub 35 in sealing engagement with tubular valve section 29 to prevent the escape of hydraulic lluid from within the valve housing 21.
At the beginning of a jarring stroke (see Figs. la and lb), valve member 27 is disposed within small bore 23 and is maintained in somewhat the same absolute position during operation of the hydraulic jar because of its connection to the stuck member 19. Upon upward movement of the drill string 13, outer tubular mandrel 9 is pulled upwardly forcing the hydraulic uid trapped in housing 21, between sub 35 and valve member 27, upwardly between the exterior of said valve member and the walls of small bore 23 into the uppervend of said small bore. This naturally creates a heavy'resistance to upward movement of the drill string so that there results a relatively slow upward movement of outer mandrel 9 and a stretching of the drill string until the upper edge of the large bore 25 passes the upper edge of the plug portion 31 to uncover the by-pass grooves 33, at which time the valve housing is released, whereupon outer mandrel 9 suddenly jumps upwardly (the stretched drill string contracting) to bring hammer head 43 and anvil 45 into violent engagement to cause a jarring blow to be dealt to stuck member 19. Since there is no hydraulic liuid in the chamber in which hammer head, 43 operates, there is no cushioning effect created between the hammer and anvil, to therefore allow a more violent engagement between the hammer and anvil than heretofore realized in prior hydraulic jars of the type set forth above. It is pointed out that, as shown in Figs. 2a and 2b, valve member 27 at the end of the stroke of the housing 21 is still spaced from the upper end of sub 35 so that no cushioning effect is created in the valve chamber. It is further pointed out that since the valve member does not strike the anvil, it is not deformed or battered and will continue to properly tit within the small bore and insure proper operation of the well jar.
After the jarring stroke, the drill string 13 is lowered and the valve housing 21 readily moves down relative to valve member 27 with the fluid by-passing through grooves 33. Suitable spring-loaded ball valves 51 are provided in valve member 27 to allow hydraulic uid to by-pass the valve member through bypass ducts 53 formed in said valve member, upon entrance of the plug portion 31 of said valve member into small bore 23, to readily allow full retraction of the valve member within said small bore. The upper end of lower sub 17 engages the lower end of anvil sub 39 to limit downward movement of housing 21 relative to valve member 27.
Adjacent the upper end or tubular portion 55, sub 11 is formed with an annular step 57 which receives thereon the upper end of a sleeve type flexible diaphragm 59, the interior of which is spaced from the exterior of tubular portion 55 to provide a reserve oil space 61. The upper end of diaphragm 59 is secured to step 57 and the lower end of said diaphragm is secured to the exterior of a ring 63, which is connected to the lower end of tubular portion 55. Ring 63 carries on its exterior an O ring seal 65 in sealing engagement with the interior of valve housing 2l, and has oil passages 67 extending axially therethrough to provide communication between the oil reserve space 61 and the interior of valve housing 21.
Valve housing 2l is ported at 69 and annularly relieved at 71 so as to subject the exterior of diaphragm 59 to the well pressure. The diaphragm will iiex under the influence of the well pressure to an extent to prevent the creation of any voids in the hydraulic iluid chamber dened by the housing 21, particularly upon the unavoidable escape of hydraulic fluid therefrom such as past O rings 56.
By the present invention a hydraulic well jar has been provided in which the anvil and hammer are permitted to more violently come into impact because the hammer operates in a vacant instead ota hydraulic uid-lled chamber. Furthermore, the valve member is separate from but connected to the hammer and so docs not come into violent engagement with any abutment, and therefore its proper 'ht within the small bore of the tool is assured, and therefore proper operation ot the tool is attained. Y
While l have shown the preferred form of my invention, it is to be understood that various changes may be made in its construction by those skilled in the art without departing from the spirit of the invention as delinedin the `appended claims.
Having thus described my invention, what I claim and desire to secure by Letters Patent is:
l. A hydraulic well jar, comprising a tubular body adapted to be connected at its upper end to a supporting string of pipe and reciprocably receiving a mandrel which is adapted to be connected at its lower end to a member to be jarred, said body having an upper enlarged bore portion forming a uid-lled chamber and a lower enlarged bore portion forming a vacant chamber, the bore between said chambers being restricted and the walls thereof sealingly engaging the mandrel, the fluid-filled chamber having a portion of slightly smaller diameter than the remainder of said chamber, an enlargement on said mandrel forming a valve adapted to slidably engage said smaller diameter portion, said valve being adapted to retard movement of said mandrel relative to said body when in said smaller portion and then suddenly release the tubular body from the mandrel in response to an upward pull on the body when it leaves said smaller portion, one end wall of said vacant chamber constituting a hammer adapted to strike an anvil within said chamber and fixed to said mandrel upon release of the tubular body, and a resilient sleeve-shaped diaphragm fastened at both its ends to the wall of the fluid-filled chamber and having its exterior in communication with the uid in the well bore exterior of the tubular body, whereby the space occupied by any uid leaking from the chamber will be taken up by inward flexing of the diaphragm under influence oi the well iluid.
2. A hydraulic well jar, comprising a tubular body adapted to be connected at its upper end to a supporting string of pipe and reciprocably receiving a mandrel which is adapted to be connected at its lower end to a member to be jarred, said body having an upper enlarged bore portion forming a fluid-filled chamber and a lower enlarged bore portion forming a vacant chamber, the bore between said chambers being restricted and the walls thereof sealingly engaging the mandrel, the fluid-filled chamber having a portion of slightly smaller diameter than the remainder of said chamber, an enlargement on said mandrel forming a valve adapted to slidably engage said smaller diameter portion, said valve being adapted to retard movement of said mandrel relative to said body when in said smaller portion and then suddenly release the tubular body from the mandrel in response to an upward pull on the body when it leaves said smaller portion, one end wall of said vacant chamber constituting a hammer adapted to strike an anvil within said Chamber and fixed to said mandrel upon release of the tubular body, a resilient sleeve-shaped diaphragm fastened at both its ends to the wall of the tluid-lled chamber and having its exterior in communication with the fluid in the well bore exterior of the tubular body, whereby the space occupied by any uid leaking from the chamber will be taken up by inward flexing of the diaphragm under influence of the well fluid, and means for preventing rotation between the tubular body and the mandrel.
3. A hydraulic well jar, comprising a tubular body adapted to be connected at its upper end to a supporting string of pipe and reciprocably receiving a mandrel which is adapted to be connected at its lower end to a member to be jarred, said body having a liuid-lled chamber connected to a vacant chamber by a bore through which the mandrel extends, means for preventing lluid flow between the mandrel and the walls of the bore, a sudden release hydraulic valve in the fluid-filled chamber carried by the mandrel and cooperable with small and large bores in the duid-filled chamber to retard and then suddenly release the tubular body from the mandrel in response to an upward pull on the body, one end wall of said vacant chamber constituting a hammer adapted to strike an anvil within said chamber and tixed to said mandrel upon release of the body, and a resilient sleeveshaped diaphragm fastened at both its ends to the wall of the fluid-filled chamber and having its exterior in communication with the tluid in the well bore exterior of the tubular body, whereby the space occupied by any fluid leaking from the chamber will be taken up by inward exing of the diaphragm under the influence of the well fluid.
4. A hydraulic well jar, comprising a tubular body adapted to be connected at its upper end to a supporting string of pipe and reciprocably receiving a mandrel which is adapted to be connected at its lower end to a member 10 to be jarred, said body having a uid-lled chamber connected to a vacant chamber by a bore through which the mandrel extends, means for preventing fluid flow between the mandrel and the walls of the bore, a sudden release hydraulic valve in the Huid-filled chamber carried by the mandrel and cooperable with small and large bores in the fluid-filled chamber to retard and then suddenly release the tubular body from the mandrel in response to an upward pull on the body, one end wall of said vacant chamber constituting a hammer adapted to strike an anvil within said chamber and lixed to said mandrel upon release of the body, a resilient sleeve-shaped diaphragm fastened at both its ends to the wall of the uid-flled chamber and having its exterior in communication with the iluid in the well bore exterior of the tubular body, whereby the space occupied by any iluid leaking from the chamber will be taken up by inward flexing of the diaphragm under the inuence of the well fluid, and means for preventing rotation between the tubular body and the mandrel.
References Cited in the tile of this patent UNITED STATES PATENTS 15 Re 23,354 storm Apr. 10, 1951 1,637,505 Wigle Aug. 2, 1927 1,804,700 Maxwell May 12, 1931 2,180,223 cellen Nov. 14, 1939 2,645,459 sutliff July 14, 1953
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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US295201A US2710171A (en) | 1952-06-24 | 1952-06-24 | Hydraulic well jar |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US295201A US2710171A (en) | 1952-06-24 | 1952-06-24 | Hydraulic well jar |
Publications (1)
Publication Number | Publication Date |
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US2710171A true US2710171A (en) | 1955-06-07 |
Family
ID=23136685
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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US295201A Expired - Lifetime US2710171A (en) | 1952-06-24 | 1952-06-24 | Hydraulic well jar |
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US (1) | US2710171A (en) |
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2922626A (en) * | 1957-03-25 | 1960-01-26 | Wayne N Sutliff | Hydraulic jar |
US3566981A (en) * | 1969-09-15 | 1971-03-02 | Schlumberger Technology Corp | Hydraulic drilling jar |
US3889766A (en) * | 1974-04-04 | 1975-06-17 | Wayne N Sutliff | Deep well drilling jar |
US4550789A (en) * | 1984-03-23 | 1985-11-05 | Dresser Industries, Inc. | Hydraulic jarring tool |
US4582148A (en) * | 1983-12-05 | 1986-04-15 | B. Walter Research Company, Ltd | Mechano-hydraulic double-acting drilling jar |
Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US1637505A (en) * | 1925-06-01 | 1927-08-02 | Wm D Shaffer | Rotary hydraulic jar mechanism |
US1804700A (en) * | 1927-04-05 | 1931-05-12 | William H Maxwell | Jarring tool |
US2180223A (en) * | 1938-12-14 | 1939-11-14 | Harry E Lynn | Hydraulic well jar |
USRE23354E (en) * | 1951-04-10 | |||
US2645459A (en) * | 1951-08-06 | 1953-07-14 | Wayne N Sutliff | Hydraulic jar |
-
1952
- 1952-06-24 US US295201A patent/US2710171A/en not_active Expired - Lifetime
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
USRE23354E (en) * | 1951-04-10 | |||
US1637505A (en) * | 1925-06-01 | 1927-08-02 | Wm D Shaffer | Rotary hydraulic jar mechanism |
US1804700A (en) * | 1927-04-05 | 1931-05-12 | William H Maxwell | Jarring tool |
US2180223A (en) * | 1938-12-14 | 1939-11-14 | Harry E Lynn | Hydraulic well jar |
US2645459A (en) * | 1951-08-06 | 1953-07-14 | Wayne N Sutliff | Hydraulic jar |
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2922626A (en) * | 1957-03-25 | 1960-01-26 | Wayne N Sutliff | Hydraulic jar |
US3566981A (en) * | 1969-09-15 | 1971-03-02 | Schlumberger Technology Corp | Hydraulic drilling jar |
US3889766A (en) * | 1974-04-04 | 1975-06-17 | Wayne N Sutliff | Deep well drilling jar |
US4582148A (en) * | 1983-12-05 | 1986-04-15 | B. Walter Research Company, Ltd | Mechano-hydraulic double-acting drilling jar |
US4550789A (en) * | 1984-03-23 | 1985-11-05 | Dresser Industries, Inc. | Hydraulic jarring tool |
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