US2599040A - Sample-taking and casing-perforating apparatus - Google Patents

Description

June 3, 1952 c, BANMSTER 2,599,040

SAMPLE-TAKING AND CASING-PERFORATING APPARATUS Filed Nov. 8. 1947 2 SI-IEETS-Sl-1EET l O s\\\\\\\\\ 4 \\\\y%\\ K 3 &%6 910 3 H 3 2 2 34 a 2 w wru m.

F IG 2 INVENTOR CLYDE E. BANNISTER Q0 a9 &6

ATTORNEY C. E. BANNISTER SAMPLE-TAKING AND CASING-PERFORATING APPARATUS Junge 3, 1952 2 SHEETS-SHEET 2 Filed Nov. 8, 1947 mm mm n0 n0 ow vw mm mm mm INVE OR CLYDE 5.5m TER BY w ATTORNEY Patented June 3, 1952 SLE-TAKIN G AND CASING-PERFORAT- ING APPARATUS Clyde E. Bannister, Houston, Tex.

Application November 8, 1947, Serial No. 784,903

9 Claims. 1

This invention relates to apparatus for assaying samples of earth materials in inaccessible places, as in the surveying of oil wells, or for otherwise operating upon a wall in an earth boring, as in perforating an oil-well casing.

In my U. S. Patent No. 1,955,166, I have described and claimed apparatus wherein samples are obtained by firing into the formation a projectile having a hollow forward portion adapted to receive a sample of the formation into which it is shot and to retain the sample as the projectile is recovered, and oil-well casing heretofore has been perforated by firing a projectile hrou h The chief objects of my present invention are to provide improved apparatus of this type adapted to be suspended and operated by a single cable or the like extending from the top of the well; to provide in a convenient and economical manner for taking numerous samples, or making numerous perforations in a casing, at different depths, with only one trip, of the device into and out of the well; and, in the, case of sample taking. to provide improved means for withdrawing a Captive projectile from the formation, with the sample in it, in case the projectile becomes strongly anchored in a hard formation into which it is shot.

More specific objects will be manifest in the following description.

Of the accompanying drawings:

Fig. 1- is a vertical middle section, on line of Fig. 2 of a. device embodying my invention initspref rred orm.

Fig. 2 is a vertical middle section of, the same, on lineiez of-Fig. l.

3 is a fragmentary section of the same on line 3-3 of Fig. 2.

Fig. 4 is a longitudinal middle section, on a much larger scale, of one of the firing devices.

Fig. 5 is a, fragmentary face view, on a somewhat largerscalev than thatof Figs. 1 to 3, of one of a. pair of sheet-metal stripsfor holding a large number of the. firing devicesv in orderly arrangementwhile they are moved past the firing position and insuccession perform their functions.

Fig. 6 is a horizontal section of apparatus embodying the invention as applied to the perforation of well casing.

Fig. 7 is a fragmentary face view of one of a pair of cartridge-holding metal strips which are shown, in Fig. 6.

Referring first to Figs. 1 to 5 of the drawings, the device, there shown is adapted for sampletaking and comprises a casing which preferably "member H and a lower end-closure member l2.

At the firing position the body member is formed at one side with a hole l3 through its wall for the passage outwardly and back of successive captive projectiles and at the diametrically opposite position is formed with an inwardly bayed portion 14 which provides a reaction-sustaining member in the nature of a breech block and which has slidably mounted in an aperture extending through it a firing pin l5.

In the present embodiment, although the invention is not wholly limited to this, each of the cartridges, l6, I5, is in effect a gun barrel, of which the inner construction and arrangement will be later described. For holding them in orderly arrangement for moving them in procession past the firing position each of them is formed with two spaced-apart annular grooves I1, I! in which are adapted to engage respective circumferential series of spring fingers l8; 18, Fig. 5, formed in each of a pair of sheet-metal strips [9, l9 by stamping out holes, such as the holes 20, 20 in Fig. 5, and making radial-cuts 2|, 2| extending outward from the holes, this construction being such that each cartridge can be mounted, as a step of a ladder-like structure, in a pair of metal strips as the side members of the ladder, by being forced through the holes 20untilthe spring fingers l8 snap into the grooves IT.

For guiding the ladder-like structure pastthe firing position the body member 10 of the casing isv internally formed with. two pairs of laterally extensive, guide- way ribs 22, 22 and 23-23w. 23-23a, the latter pair, at one side of the device. being interrupted, as shown clearly in Figs. 2 and 3, to accommodate an escapement' device comprising a pawl member 24, the guide-way ribs being formed with vertical guide-way groovesin their inwardly-facing edges for receiving with an easy sliding. lit, the margins of the metal strips 19.

Each of the metal strips l9 has its margin adjacent the pawl member 24 formed with ratchet like teeth 25, 25, adapted to supportthe strip l9 and with a seat for a compression spring 28 interposed between the arm of the pawl member and a spring seat formed on the inner face of the casing, so that these two springs 28 constantly urge the pawl member about its pivot 26 toward its position of engagement with the ratchet teeth of the cartridge-holding strips.

Adjacent its pivot the member 24 is formed with a short, horizontal, cam-latch, pawl-lifting arm 29, Fig. 2, adapted to be engaged and released by a cam-latch hook 30 mounted on the lower end of a flat spring 3|, as the hook and spring are moved relatively downward and upward. The spring 3| has its upper end secured to the lower end of a vertical bar 32 which slidably extends through suitable brackets, such as the bracket 33, projecting from the inner face of the casing. The upper end of the bar 32 is secured to a spring-seat head 34 formed on the lower end of a supporting bar 35 which slidably but non-rotatably extends upward through a spring-seat and bar-guiding neck 36 formed on the upper end-closure member I I. Above the neck 36 the bar 35 has removably secured upon it, as by screw threads, a head member 31 formed with an eye for the anchoring of a cable to it and formed also with a stop-flange 38 at its lower end adapted to abut the upper end of the neck 35 to limit relative downward movement of the bar 35 and members mounted upon it.

Interposed between the spring-seat head 34 and the spring seat formed in the neck 36, and surrounding the bar 35, is a compression spring 39 of such strength and of such pre-loading as to support the casing and the parts within it other than those that are directly supported by the post 35, and thus tohold the neck 36 in contact with the stop-flange 38, whenever the cable is supporting the weight, or a force only a little greater than the weight, of the casing and its contents.

The spring 39 however has such strength, preloading, range and modulus that, when it is subjected to a determinately greater load, as by lowering the device and suddenly stopping it or reversing its movement by means of the cable, or by suddenly accelerating it upward from a stationary condition by means of the cable, the spring is further compressed and the bar 35 and parts directly supported by it move upward with relation to the casing until the spring-seat head 34 is stopped by contact with the inner face of the upper end-closure member I I.

In such manipulation of the device the inertia of the casing and some of the other parts, or their inertia plus the resistance of fluid in the well, causes the relative upward movement of the bar 35 and parts carried by it.

In the first part of this relative upward movement the cam-latch hook 35, engages with the cam-latch pawl-lifting arm 29, rotates the pawl member 24 about its pivot 26 until angular movement of the arm 29 disengages it from the hook, which is sufficient rotation to lift the pawls hooks from the pair of ratchet teeth and to permit the ladder-like cartridge assembly to be started relatively downward by gravity and/or its inertia.

Then the springs 28 immediately return the pawl member 24 to contact the metal strips [9, to engage the next pair of ratchet teeth and thus stop the next cartridge or gun in firing position.

When the cable, the head 31 and the bar 35 are again held still the spring lifts the casing and other parts back to the original position in which 4 they are shown in Fig. 2, the cam faces of the arm 29 and the hook flexing the spring 3| and thus allowing them to pass each other and reengage for the next cycle of operation as described.

For actuating the firing pin l5 near the end of the relatively upward movement of the bar and its head34, after the new cartridge has been brought to firing. position as described, an L- shaped hammer 49, Fig. 1, is pivotally suspended at 4| in the bayed portion l4 of the casing and has a horizontal arm in position to be struck by a vertical bar 42 upon descent of the latter through a large-clearance hole formed in the upper wall of the inwardly bayed portion of the casmg.

The bar 42 is slidably but non-rotatably mounted in brackets 43, 43a projecting from the inner wall of the casing and at a little distance above the lower bracket has secured upon it a spring-seatcollar 44 which is adapted to contact, at almost the limit of the downward movement of the bar, the upper end of a compression spring 45 seated upon the lower bracket and adapted to permit the bar to complete its stroke to fire the cartridge but of such strength that it then lifts the bar slightly, to release the firing pin so that the next cartridge can crowd the firing pin out of its way by contact with the tapered front end of the firing pin.

In so lifting the bar 42 slightly the relatively strong spring 45 re-establishes a preloaded condition of a long spring 46 which is mounted between the spring-seat collar 44 and the upper bracket 43.

Secured to the upper end of the bar 42 and projecting upward therefrom is a flat spring 41 having a cam-latch head 48 on its upper end. The head 48 is adapted to interlock with a camlatch arm 49 projecting horizontally from the spring-seat head 34 of the bar 35, and is adapted to be disengaged therefrom by cam action of a cam-lug 5B projecting downward from the inner face of the end-closure member ll, just before the spring-seat head 34 is stopped by contact with the end-closure member, at which time the long spring 46 has been highly compressed by upward movement of the bar 42 and its collar 44.

Thereupon the spring 46 drives the bar 42 rapidly downward and thus fires the cartridge and the springs 43 and 45, opposing each other, then hold the bar and its cam hook 48 in position for reengagement of the cam-latch arm 49 for repetition of the cycle as described, the coaction of the cam faces of the members 48 and 49 flexing the spring and thus permitting them to pass each other in the relatively downward movement of the member 49.

Each of the cartridges or guns preferably is of the construction shown in Fig. 4. The main body, casing or gun barrel consists of two tubular members, 5|, 52, shouldered and screw-threaded to each other as clearly shown at 53. The member 5| at its outer end has an end wall formed with suitable apertures for an inwardly-seating percussion cap 54 and an inwardly Withdrawable tapered plug 55.

A captive projectile 56 is mounted in the gunbarrel structure. It has at its rear end a pistonlike head which slidably fits in a large-diameter part of the bore and a shank or shaft portion of less diameter extending forward from the head and slidably fitting in a bore of like diameter in the forward end portion of the member 52. Its forward end portion is hollow and potentially 5. p nat the-nontfcr reception eta sample-oi: an ear h formation intowhichit: is to beshot; but; to. withstand the high hydrostatic pressure of drillersmud'in a deep'well; and toseal; oft the. interior of the. cartridge from: then-1nd;v the front end of the projectile is closed by-ametal plate 51 and the muzzle of? the gun is sealedby an application ofa sealing material, such asv a thick coating" of a hardening plastic, 58, overlying the 1913118, both of'them beingadapted' to be ruptured and wholly: or impart driven into theprojectileaheadiofithe sample, when the gun is fired or at. least when the projectile hits the formation.

Preferably the projectile is formed with air-- venting- apertures 59, 59 at the inner end of its sample-receiving cavity. It can also be formed with a weakening circumferential groove 60 a l-ittlewayback of that position... soathatif: the-p110- jectile can not be withdrawn from a. hard, forma:

tion it can be brokenoff, and the. apparatus thus released, by lowering or forcibly raising the apparatus.

For impelli-ng the projectile forward a charge of powder BI is suitably placed, and for pulling out the plug 55' and thus venting the powder chamber for return movement of the projectile, but only after the powder blast has given the necessary velocity to the projectile, the plug 55 is connected to thepiston-like head of the projectile by a cable 62 of suitable length.

To vent. air from the annular space around the shank portion of the projectile, in front of its piston portion, in the first part of'its forward movement, and then to vent hot combustion gases from backof the'piston, the casingmember 52. is formed at a suitable-position with a vent hole 53.

In dealing with soft formations, a spring 6 in the annular space just referred to, interposed between the piston head and a shoulder in the easing member 52, can have sufficient strength to withdraw the projectile from the formation and into the gun-barrel structure, so that the latter can pass on downward in the device.

To make sure of such withdrawal of the pro- J'ectile, however, a charge of powder 65 is placed in an annular pocket formed in the shouldered, small-inner-diameter portion of the member 52 and sealed ofi by a pouring 66 of a hardening flowable material such as paraffin or sealing wax,

with an interventing layer 61 of paper or the like if desired.

For timed firing of this charge of powder, after the projectile has completed or almost completed its forward movement, which may be of variable length according to the nearness and the hard- D ness of the formation, a time fuse or a thin column of powder 68 is placed in a hole which extends from the shoulder face of the member 52, through its vent aperture 63, and into the chamber occupied by the powder 55.

When the piston head of the projectile, in its forward movement, passes the vent aperture 63, the hot gases escaping through the vent ignite the fuse or thin powder column and in a suitable length of time the combustion of the latter progrosses to and ignites the powder charge 65, which, acting against the shoulder of the piston, returns the projectile to its starting position.

To prevent drillers mud or moisture from entering the gun through the vent hole 63, the hole is closed and sealed by a large-headed, shortshanked plug 69 of sealing-wax or the like, adapted to be blown out by the explosion gases, or by vented air.

Figs. 6 and '7 show an embodiment of the ind vention. adapted. tashcct. holes. in well; casing: 1.0; Fi 7 as for permitting oil to. enterthecasin from thefqrmation.

In this; embodiment the constructionand a1:- rangement. are. substantially as; above; described for-sample; taking. except that the projectiles do not have to have samp1e-receiving chambers but can be ordinary bullets, and donothave: to be recovered. In these figures. I have shown a dual arr n ment of: cartri ges; for firing bullets in opposite: directions: at; the same. time. y dup cation of firing devices above; described.

The-metal cartridge holding strips, such; as the strip II, are each formed with two rows of; holes, in ranks. of twos for holdin two of; the; ca tridgesi is, is; Fig. 6., in respective adjacent firin positions; at: the. same time. and. the casing [3 of" the.- device. is formed; with a suita ly posi ione outlet. hole, 14,, for each, of; the projectiles Although the two cartridges are oiT-set from, each other and from the center of the device, the recoils or reactions of the two simultaneous explosions almost wholly counteract each other as to. displacement of the device. The chief ad,-

- vantages; of: the simultaneous firing of the two projectiles; however, is the assurance of perforating the. casing at diametrically opposite positions.

The word wall as used in the appended claims is intended to be inclusive of structures underlying water, as in the case of an ocean floor.

Various modifications-are possible without departure from the scope of the invention as defined in the appended claims.

Iclaim;

1. Apparatus for operating upon a wallin anearth boring, said, apparatus comprising a frame structure adapted to be lowered in the boring, suspension, means for so lowering it, means for firing a succession of projectile cartridges atv a single firing position on said frame, resilient means supportingly interposed between the said suspension means and; the, said frame structure for supporting the latter from the former through said resilient means, and step-by-step feeding means mounted on the frame structure and actuated by relative movement of the frame structure and said suspension means, with change of stress in said resilient means, for bringing the cartridges in succession to the said firing position, the said frame structure and the said means defined as being mounted upon it both applying stress to said resilient means by reason of their weight and, by reason of their inertia, varying their strain upon said resilient means in accordance with manipulation of said suspension means.

2. Apparatus as defined in claim 1 in which the assembly includes means mounted on the defined frame structure and actuated by relative movement of the defined frame structure and the defined suspension means for actuating the defined firing means.

3. Apparatus as defined in claim 1 in which the assembly includes a spring for actuating the defined firing means, said spring being mounted upon the defined frame structure and having such engage-and-release connection to a part of the defined suspension means as to be stressed by relative movement of the frame structure and the suspension means and be released, by further such relative movement, for actuating the firing means by its recoil.

4. Apparatus as defined in claim 1 in which, of the defined firing means and the defined means for bringing the cartridges to firing position, each includes a spring mounted upon the defined frame structure and having such engage-and-release connection to the defined suspension means as to be stressed by relative movement of the frame structure and the suspension means and be released by further such relative movement.

5. Apparatus as defined in claim 1 in which the means for bringing the cartridges to the firing position comprises guiding means for a succession of the cartridges and ratchet-andpawl means for step-by-step feeding of the cartridges.

6. Apparatus as defined in claim 1 in which the means for bringing the cartridges to the firing position comprises means'for holding them in orderly arrangement as a gravity procession and step-by-step means for permitting them to be moved in succession to the firing position by gravity.

'7. Apparatus as defined in claim 1 in which the means for bringing the cartridges to the firing position comprises, for holding them in orderly arrangement as a gravity procession, a sheet-metal strip formed with holes for the reception of the respective cartridges, the assembly including step-by-step means for permitting them to be moved in succession to the firing position by gravity.

8. Apparatus as defined in claim 1 in which the means for bringing the cartridges to the firing position includes a gun barrel for each of the cartridges and means engaging the gun barrels for feeding each cartridge and its respective gun barrel to the firing position.

9. Apparatus for operating upon a wall in an earth boring, said apparatus comprising a frame structure adapted to be lowered in the boring, suspension means for so lowering it, resilient means supportingly interposed between the said suspension means and the said frame structure for supporting the latter from the former, a

tool member mounted on the frame structure and adapted-to be projected therefrom for operating upon the said wall, and means mounted on the frame structure and actuated by relative movement of the suspension means and the frame structure, with change of stress in said resilient means, for effecting such projection of the said tool member, the tool member and the projection effecting means acting as a unit with the frame structure, by virtue of being mounted thereon, as inertia means for 'efiecting relative movement of the frame structure and the suspension means in accordance with manipulation of the latter.

CLYDE E. BANNISTER.

REFERENCES CITED The following references are of record in the file of this patent:

UNITED STATES PATENTS Number Name Date 752,648 Bristol Feb. 23, 1904 1,270,719 Franklin June 25, 1918 1,277,271 Sutch Aug. 27, 1918 2,055,506 Schlumberger Sept. 29, 1936 2,084,722 Baker June 22, 1937 2,119,361 Schlumberger May 31, 1938 2,183,435 Thornton Dec. 12, 1939 2,192,591 Alexander Mar. 5, 1940 2,200,683 Schlumberger May 14, 1940 2,203,265 Kniss June 4, 1940 2,210,983 McClatchie Aug. 13, 1940 2,288,210 Schlumberger June 30, 1942 2,334,931 Johnson Nov. 23, 1943 2,426,517 McWhorter Aug. 26, 1947 2,456,977 McCullough Dec. 21, 1948 2,481,726 Dassis-Fonseca Sept. 13, 1949 2,489,428 Mariner Nov. 29, 1949 FOREIGN PATENTS Number Country Date 347,180 Germany Jan. 16, 1922

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