US2019176A

US2019176A - Sample taking device

Info

Publication number: US2019176A
Application number: US609923A
Authority: US
Inventors: Redus D Dodds
Original assignee: Individual
Current assignee: Individual
Priority date: 1932-05-07
Filing date: 1932-05-07
Publication date: 1935-10-29
Anticipated expiration: 1952-10-29

Description

' Oct. 29, 1935. R. D. DoDDs SAMPLE TAKING DEVICE 3 Sheets-Sheet 1 Filed May '7, 1932 Oct. 29, 1935. R/D. Donne SAMPLE TAKING DEVICE Filed May 7, 1952 3 Sheets-Sheet 2 all@ u \l ya Oct. .29, 1935.

l d iii? Filed May 7, 1932 R. D. DODDS SAMPLE TAKING DEVICE s sheets-sheets Patented da.I 2e, i935 stares asians PATE 14 Claims.

This invention relates to a sample taking device.`

An object of the invention is to provide an apparatus of the character described specially designed for taking `cores or samples of either hard or soft formation 'being pierced in the process of drilling wells.

Another object of the invention is to provide,

in an apparatus of the character described, a

novel type of core catcher.

Another object is to provide novel means for actuating said catcher into, and maintaining the same in, secure engagement with the core or sample.

Another object is to provide novel means'for indicating to the operator that the core catcher has been actuated into core retaining position. Another object is to provide, in a device of the character described, a novel type of core barrel.

Another object is to provide novel means for anchoring the device in the drill stem.

Another object is to provide a core taking apparatus that may be readily let down into, an-

' chored in, and removed from the drill stem, while said stem and drill remains in the bore.

With the above and other objects in view this invention relates to certain novel features .of

operation and arrangement of construction, parts an example of which is given in this speciflcation and illustrated in the accompanying drawings, whereim.-

Figures 1 and 2 show vertical sectional views,

respectively, of the upper and lower ends of the Figures 7 and 8 show vertical sectional views,

respectively, of the upper and lower ends of the apparatus shown in core retaining position. Figure 9 shows a fragmentary vertical sectional view of still another form of the lower end of the apparatus showing a`modied form of core retainer. Y

Figure 10 shows a fragmentary vertical -sectional view of the drill stem, above the core taking apparatus, showing a type of releasable ball :retainer employed, and

(Cl. Z55-72) Figures 11 and 12 show vertical Asectionalviews of the upper and lower ends, respectively, of another modification.

Referring now more particularly to the drawings, wherein like numerals of reference designate similar parts in each of the iigures the numeral i designates the tubular drill stem to the lower end of which a core forming drill 2 may be attached. The drill has a central core receiving opening 3 and around this opening may have an inside annular groove forming a seat li. The

channels

5, 5 for flushing iiuid lead outwardly from the stem, through said drill, outside of said seat.

There is a tubular housing 6 whose lower end 415 has a downwardly converging seat 8 therein and said lower end has an annular, resilient ring 9 secured thereon which seats in the seat and forms a u'id tight joint therewith.

On the seat 8 there is mounted a core catcher 20 which will now be described:-This core catcher comprises a" tubular body I0, preferably split at one side so that it will be expansible to permit the core, or sample, to pass readily therethrough. The lower end of the catcher body has a plurality l of wide slots II` in which the slips are mounted.

are tapered downwardly to conform to the pitch I of, and to rest upon, .said seat 8 and the inner faces of the slips are preferably toothed. A flexible split ring I 3is tted loosely through bearings in said slips which serves to normallyV hold the lower ends of the slips apart so as not to in- 3 terfere with the entrance of the core, or sample. Pivoted to the inside of the upperend of the body I0 are the relatively wide, upstanding, inwardly curved flexible fingers I4. These fingers will readily yield outwardly to readily permit the entrance of a core, or sample, and upon the withdrawal of the device the ngers will engage underneath a soft sample inthe core barrel I5 above and will thus retain samples that are of 4 such a nature that the slips I2 will not engage and retain. s r The core barrel I5 is attached, by aninside coupling Iii, to the lower end of the tubular barrel hanger. II and spaced above said coupling, in the hanger there is threaded the ring I8. The hanger I1 is surrounded by a suitable packer, as I6. YThe coupling I6 and ring I 8 have the aligned uid passageways I9, 20, respectively, therethrough which. may be controlled by the ball y lhanger I1.

`25. When the apparatus is being lowered through the drill stem the drilling fluid in the stem attempting to enter through the passageway I9 will lift the valve 2| to close the passageway 20 and the only inow of said drilling uid into and up through the apparatus, as it descends, will be restricted to the

ports

22, 23 so that the apparatus will be retarded in its downward passage through the drill stem to final position and consequently may be lowered, or oated in, without the use of a line 'or cable to lower the same.

'Ihe tubular core barrel is preferablyy formed of two lcomplementallengthwise sections which may be soldered together, as shown in Figure 3,

so that when the core or sample is taken and withdrawn the sections may be readily separated to gain access to the sample. These sections may be otherwise secured together so that they may be readily taken apart. I

In the upper endY of the barrel hanger I1 there is a tube 26 whose upper end is extended above said hanger and attached to said upper end there is an enlarged tubular head 21 having the surrounding upwardly opening cup ring 28 which forms. a close fit in the housing 6. The head 21 rests on a strong coil spring 29 which surrounds the tube 26 and rests on the upper end of the Pivotally mounted in a side slot in the head 21 there is a finger 36 having a straight outer end face which normally rides against the inner wall of the housing and the nger is there- I by retained in transverse position across the passageway through the tube 26 and above said `nger the head 21 is enlarged, internally, forming the annular seat 3|. The upper margin of the outer end of the finger has a notch 32 in which the free' end of the flat spring 33 engages to assist in maintaining the finger in said position. The upper end `of this spring is attached to the head 21.

Attached to the upper end of the barrel hanger I1 are the

exible springs

34, 34 which work inwardly through the

side slots

35, 35 of said hanger and to the inner ends of these springs'the outwardly directed

dogs

36, 36 are attached". These dogs work through the

side bearings

31, 31 of the hanger I1 and whenthe apparatus is assem- `bled to.be let down through the drill the dogs project into the inside annular groove 38 in the housing 6 and are retained in said locking position by the tube 26 which works between them and which has the external

vertical grooves

39, 39

in which said dogs work.v These dogs serve to lock the barrel hanger and barrel against longitudinal movement relative to the housing.

`lin assembling the apparatus the core catcher is located ,on the seat 8 'and the barrel hanger and barrel -are assembled together and are anchored in the-housing as shown in Figure 1, with the lower end of thebarrel spaced above the core catcher and as thus assembled the apparatus is let down through thedrill stem and the lower end of the housing finally lands on the seat 4. Pivotally mounted in the housing 6 above the head 21 are the locking

dogs

40, 40 which work outwardly through the housing slots 4I, 4| and engage under the inside annular shoulder 42 within the drill stem. There will be a slight rebound of the resilient member 9 which will hold said dogs 40 closely against said shoulder 42. The.

dogs 40 have the downwardly

converging extensions

43, 43 against which the inwardly working atsprings 44, 44 work whereby the dogs 40 are retained in engagement with the shoulder 42.

As the drill stem and drill are rotated the drill will form a core, as 45 which will gradually enter the core barrel I5, passing up through the core catcher. The core will hold the core catcher elevated above the seat 8 but the range of elevation will be limited by the inside annular shoulder 46 in the housing. The core passageway through the drill converges downwardly, as shown, so as to minimize the friction with the core, so that the core, particularly if a hard core, will not be broken off or injured, and the catcher will engage with and be sustained by said core and will not rotate with the housing. The core barrel, if desired, may have a conventional swivel connection with the hanger il instead of the rigid connection formed by the coupling I6.

W hen it is desired to remove the core, or sample, a ball, as 41, may be dropped through the drill stem I and this ball will land on the seat 3|, as

shown in dotted lines in Figure 1, and fluid pres-` sure exerted downwardly through the stem I will move the tube 26 downwardly compressing the spring 29 and when the

slots

48, 48, out through the tube 26 register with the dogs 36, said dogs will be moved inwardly, by the springs 34, through said slots and thereupon the barrel hanger and barrel I5 will move downwardly and the lower end of the barrel will surround and press downwardly against, the fingers III and will force the catcher downwardly onto the seat 8 which will contract the slips I2 securely against the core; or if a soft core has been taken the lingers I4 will be closed underneath, and will retain, said sample. The uid pressure should be applied until the outer end of the linger 30 has passed beneath the inside shoulder I9 of the housing whereupon the spring 33 will operate to lift the inner end of the finger 30 and to carry the upper outer corner of said iinger out underneath the shoulder 49. spring 29 will move the tube 26 upwardly but the outer end of the linger 30 will engage the shoulder 49 and the inner end of said finger, and the ball 41, will be elevated above the seat 3|. Fluid may now circulate freely down through the drill stem and tube 26 and out through the

openings

23, 22 and thence out through the passageways 5 to the drill, but said fluid will at all times be excluded from the barrel I5 by the valve 2| which closes the passageway I9 against the entrance of said fluid. The pump for supplying the pressure fluid will now speed up to indicate that the core has been secured... 'I'he means for controlling the passageway is shown and claimed in my copendingapplication for Screen setting apparatus led February l1, 1930, under Serial No. 427,602. l

If desiredl mechanical means maybe employed to force the tube 26 and core barrel downwardly to effect the securing of the core, or sample.

Any suitable type of fishing tool may now be lowered through the stem to release and withdraw the apparatus. As shown this fishing tool has a mandrel 5D which may enter between and expand the Aextensions 43 and thus withdraw the dogs 4l) from underneath the shoulder 42, and said tool also includes the dogs 5| which may eny,gage underneath the inside shoulder 52 of the Upon release of the pressure the.-

tion of the barrel sections and access thus gained to said core.

As shown in Figure 9 the lower end of the core barrel l5 may be detachably secured to the drill 2 in alignment with the core passageway 3. This core barrel I5' may have the bearings 5|', 5|' adjacent its lower end through which the inwardly turned core retaining dogs 52', .52 work. The upper ends of these dogs are pivoted to the core barrel I5. In this form the housing 6 is downwardly movable and when the ball 61 is dropped onto the seat 09 and fluid pressure is applied said dogs 36 will be released, as hereinabove described and said housing will be moved downwardly by said pressure and its lower end will operate against the dogs 52', 52' to force them inwardly and they will sever, vand engage underneath, the core. When the housing is moved downwardly the upper ends of the inwardly working

dogs

53, 53, carried by said housing, will engage underneath the external annular shoulder 54, around the barrel I5' and will lock said housing in its lower position to retain the dogs 52' in engagement underneath said core. In other respects the form shown in Figure 9 is the same as that shown in Figure 1.

In the form shown in Figure 5, the core catcher is located in the downwardly converging seat 55 in the core drill 56,' and this drill is connected to the stem by means of the drill collar 51 which hasy the passageways 5' leading downwardly therethrough to conduct the drilling iluid from the drill stern to the drill. This drill collar has the inside stops 58 to limit the upward movement of the core catcher. In this form the core barrel I 5 is attached to the inwardlythickened portion 59 on the drill collar. There are the vertical push rods 60 which work through bearings in the thickened portion 59 and whose upper ends areattached to the ring 6| around the barrel l5. The ring 6| is seated on the coil springs 62 whichsurround the rods 60 and are supported on the drill collar. The upper side of the ring 6| has an annular groove 63 wherein the lower end of the housing 6 is seated. The lower ends of the rods 60 have the heads 60 thereon and when the housing 6 is moved downwardly, as hereinbefore explained in connection with the description of Figure 9 the heads 60 will force the core catcher downwardly to causethe slips `|2 to engage with and grip the core that has been formed, or if a soft'saznple has been taken the fingers l0 will be forced into position to engage underneath and retain said sample. In this form also the housing 6 and the barrel I5' may be provided with the interlocking. dogs 53 and shoulders 54 to engage and lock the housing 6' in its lower position. When the core has been secured the drill stem and core taking apparatus therein may be withdrawn with the slips l2 moved downwardly and inwardly on the seat 55 to grip and retain the core.

"" Another modication of the apparatus is illustrated in Figures 1,1 and 12 wherein the drill stem I' has a special type ofcoupling 13 incorporated into the same and which has the upper and lower

annular shoulders

14, 15 therein which face downwardly and upwardly, respectively. In this form there is a tubular housing 16 adapted to pass through said coupling and which has a suitable packing 11 therearound to form a close t in the coupling 13. The housing 16 Ahas the upper and lower locking

dogs

18, 18 and 19,- 19 respectively, pivoted therein which work outwardly through the

housing slots

80, and 8l, 8| and Aengage with the corresponding

shoulders

14 and 15 respectively.` '

I'hese dogs

18, 19 have the downwardly converging

extensions

82, 82 and 83, 83, respectively, against which the inwardly working

flat springs

84, 89 and 85, 85, respectively, 5VV

work, whereby said dogs are retained in engagement with said shoulders.

Attached to the'lower end of the drill stem s a core drill 86 having a central inlet passageway 81 for the sample and having the inside 10 downwardly converging seat 88 above said inlet, and this drill also has the

channels

89, 89 for the flushing iiuid leading outwardly from above said seat 88.

The lower end of the housing 16 telescopes over 15 the core barrel 90 and has the longitudinal side slots 9|, 9|, through which the

lugs

92, 92, carried by the core. barrel work. Around the core barrel and between it and the housing there is a strong coil spring 93 which is seated on the lugs 20 92 and whose upper end abuts the inside annular shoulderS in the housing and above said shoulder there is a packing ring 95 between said barrel and housing. The lugs 92 are preferably welded to the core barrel after said barrel, spring and 25 a y said housing in said lower position.

The -lower end of the core barrel has an ex- 35 i ternal annular flange 99 and attached to this ange there is a depending cage |00 whose lower yendconverges downwardly forming the seat`|0|,

The lower end of this cage may have a surrounding packing |02 to seat in the seat 88 of the drill. 40 Mounted in the cage |00 there is a core catcher similar to that shown in Figures 2, 4, and 5.

Around the core barrel beneath the head 96 there is a ring |03 and vertical push rods |00 having 'their upper ends attached to said ring 45 and these rods work" through bearings in the flange 99. 'Ihe lower ends of the push rods |00 have the heads |05. Surrounding the rods' |06 are the coil springs |06 which are seated on the flange 99 and on which the ring |03 is seated, 50

Beneath the dogs 19 there is a ring |01 secured in the housing 16 and having anopening |08 therethrough for the passage of drilling fluid and beneath said ring the housing has the outlet openings |09, |09 through which the drilling 55 fluid may pass outwardly into the stem l and thence down and out through the passageways 89.

Secured in the housing 16 beneath the' opening's |09 there is a valve cage ||0 having'the upper and lower openings lll, H2 controlled by 00 the ball valve H3, confined by said cage.

This form of the apparatus assembled as hereinabove described maybe loweredinto the' drill stem and the pressure of the fluid beneath will lift the valvel I3 so as to close the opening 65 l and the entrance of the uid from the drill stem into the housing will be restricted to the passageways |09 and the downward movement of the apparatus will be thereby retarded and the apparatus may thus be oated in without the o use of a line or cable. When the dogs 19 pass the shoulder 19, they will be expanded and when the apparatus has moved on down until its lower end seats on the `seat 88 the 'dogs -19 will hang on the' shoulder 15 and the dog 10 will clear the g5 shoulder 14 and will be expanded by the springs 8d into engagement with said shoulder 1t.

Drilling may now be proceeded with as hereinbefore explained and the core or sample will enter through the core catcher and will pass on up through the core barrel 96 and into the housing 16 above. In this form the barrel is relatively short and the housing above is larger than the core barrel so as to give greater capacity and consequently the core or sample will not be liable to congest in or clog the core barrel. As the sample enters the core barrel the air or water in the barrel or housing above will lift the valve H3 and pass out through the openings of the core barrel but the valve I3 will prevent the entrance of the drilling fluid into the sample chamber.

When a sample has been taken, a fishing tool of the character hereinabove described may be lowered through the drill stem into the upper end of the housing 16 and the mandrel 50 thereof will enter between and expand the

extensions

82, 83 and thus withdraw the

dogs

18, 19, from engagement with their

corresponding shoulders

14, 15 and the lower end of said mandrel will land on the ring |01 and close the opening |08 thus cutting off the drilling fluid which will affect the operation of the pump and indicate to the operator that the housing has been released. The housing 16 is now free to move downwardly and the head 96 thereof will Aland on the ring |03 and will force the rods |04 and the heads |05 downwardly into contact with the fingers Hl thus forcing the core catcher downwardly into secure engagement with the core or sample. Thereupon the fishing tool may be elevated and the dogs 5| thereof will engage underneath the shoulder 52 of the upper end of the housing and the entire apparatus with the sample therein may be withdrawn to the ground surface for inspection. While being withdrawn the core catcher Will be maintained in secure engagement with the core or sample by means of dogs 91 which engage with the shoulders 96 when the housing has been moved into its lower position relative to the core barrel 96. y

In some cases the drill stem l may have a float valve therein above the core taking apparatus and in such case the ball 41 can not be dropped from the ground surface through said stem. When such float valve is used in the stem it is necessary to provide means for supporting said ball in the stem beneath the iloat valve and for dropping said ball onto the seat 3| at the desired time. Such means is illustrated in Figure 10. As shown in this figure there `is a tubular coupling sleeve I 65 having external coarse threads which are screwed through the

upper couplings

6,6 and into lower couplings 61 which are in turn connected to the upper and lower sections of said drill stem. The upper end of the sleeve 65 has an enlarged head 68 which prevents the detachment of said sleeve from the coupling 66 and the lower end ofA the sleeve 65 is fastened in the coupling 61 by means of a set screw 69. Above the head 68 there are the pivoted

dogs

10, 10 and whenthe coupling 66 is screwed down on the`sleeve 65 into abutting relation with the coupling 61 of the head 68 will engage the

dogs

10, 10 and hold them in transverse position as shown in dotted lines in Figure 10 and in this position they will support the ball 41. When the couplings 66, 61 are screwed together the shoulders 1|, 12 will abut to prevent the parts from being so tightly screwed together that they cannot be readily unscrewed, In this position drilling may be proceeded with until a core or sample has -been taken and the upper portion of the drill stem may be reversed to run the coupling 66 upwardly relative to the sleeve 65 to release the dogs 10 and to permit the ball 41 to drop onto the seat 3| for the purpose 5 hereinabove explained.

In case the form shown in Figures 11' 'and 12 is used, a mandrel, such as 56 may be supported on the

dogs

10, 10 and released in the manner hereinabove described, when the core is taken, 10 to release the

dogs

18, 19.

'I'he drawings and description disclose what is now considered to be preferred forms of the invention by way of illustration only while the broad principle of the invention will be dened l5 by the appended claims.

What I claim is:

1. In a core taking device, a core catcher ncluding a tubular expansible body, core engaging slips pivoted thereon and whose lower ends are 20 free, a yieldable means independent of the body and connecting said slips and normally holding said free ends apart.

2. In a core taking device, a core catcher including a tubular expansible body, core engaging 25' slips pivoted thereon and whose lower ends are free, yieldable means independent of and beneath the body and connecting said slips and normally holding said free ends apart, and inwardly movable core engaging means upstanding from the body.

3. In a core taking device, a core catcher com prising a tubular splitbody, having slots at one end, core engaging slips pivoted to work through said slots, a split, flexible, ring connected to said 36 slips and normally holding their lower ends apart and inwardly movable, upwardly directed fingers on saidbody.

4. A core taking apparatus including a tubular stem, a core forming drill on the lower end of the 40 stem having a core receiving opening and an inside seat around said opening, a tubular housing in the stem whose lower end is adapted to form a close t with said seat and is provided with an inside downwardly converging seat, releasable 45 means for locking the housing in the stem, a corecatcher on the seat in said housing, a core barrel in the housing, means for locking said core barrel in the housing spaced above the core catcher, said barrel being movabledownwardly, upon release 50 of the barrel locking means, into engagement with the core catcher, whereby said catcher is moved downwardly on said housing seat into secure engagement with the core.

5. A core taking apparatus comprising a tubular 55 stem, a core forming drill at the lower end of the stem having an inlet for the core and an inside seat around said inlet, a tubular housing in the stem whose lower end is adapted to form a close t with said seat and is provided with an inside, 60 downwardly converging seat, Ymeans for releasably locking the housing in the stem, a core catcher on the housing seat, a core barrel releasably secured in the housing and movable downwardly upon release of the barrel and effective, upon such 65 downward movement, to move said catcher downwardly on its seat into secure engagement with said core.

6. A core taking apparatus comprising a tubular stem, a core formingdrill at the lower end 70 thereof having an inletfor the core, said apparatus having an inside downwardly converging seat, a contractile core catcher on said seat having upstanding inwardly directed ngers, a. tubular member in the stem above said seat, means locki'R aoiaive said tubular member in one position, said member being movable downwardly, upon release thereof, into another position in engagement with said core catcher whereby said fingers are forced inwardly and the catcher is contracted by said seat into engagement with said core.

7. Core taking apparatus comprising -a tubular stem, a core drill on the lower end thereof having a core receiving inlet, said apparatus having a downwardly converging seat adjacent the lower end thereof, a contractile core catcher on said seat, a core barrel releasably secured in the stem above the core catcher and movable downwardly upon release thereof into engagement with said catcher whereby the catcher may be moved downwardly on the seat and contracted into engagement with the core.

8. Core taking apparatus comprising a tubular stem, a core drill on the lower end thereof having a core receiving inlet, said apparatus having an inside seat adjacent the lower end thereof, a core catcher on said seat, a tubular housing in the stem,

a tubular core barrel in the housing, said housing and stem being one fixed against downward movement relative to the stem and the other releasably secured relative to the stem and being downwardly movable upon release thereof and being eifective, upon such downward movement, to engage and move said catcher downwardly relative to said seatandinto engagement with said core.

9. Core takingv apparatus comprising a tubular stem, a core drill on the lower end thereof having a core receiving inlet, core engagingmeans around said inlet, a tubular housing in the stem, a core barrel in the housing, said housing and barrel being releasably secured against relative longitudinal movement and one being movable downwardly relative to the other, upon release thereof and being effective, upon such downward movement to move said core engaging means into secure engagement withthe core.

10. Core taking apparatus comprising a tubular stem, a core drill on the lower end thereof having a core receiving inlet, core engaging means around said inlet, a tubular housing in the stem, a core barrel in the housing, said housing and barrel being releasably secured against relative longitudinal movement and one being movable downwardly relative to the other, upon release thereof and being eective, upon such downward movement to move said core engaging means into secure engagement with the core, and means effective to engage and lock said housing and barrel in said last mentioned position.

11. A sample taking apparatus comprising' a tubular stem, a drill at the lower end thereof 5 having an inlet for the sample, sample engaging means adjacent the lower end of the apparatus, a housing in the stem, a sample receiving barrel in the housing, releasable interlocking means for locking the housing and barrel against relative l@ movement, means for releasing said locking means, said housing and barrel being, one movable downwardly relative to the other, upon such release, whereby said sample engaging means may be actuated into engaging relation with the sample. l5 12. A sample taking apparatus comprising a tubular stem, a drill at the lower end thereof havingy an inlet for the sample, a tubular housing in the stern, a sample receiving barrel in the housing,

.means for releasably locking said housing and barrel against relative longitudinal movement, said housing and barrel being provided, one with an inside seat having sample engaging means thereon, and the other being downwardly movable, when said locking means is released, and being effective, upon such downward movement, to move said sample engaging means into sample retaining position. l i

13. In a sample taking device, a tubular stem.` having adjacent parts connected by threads, ball 39 retaining means therein arranged to be held in ball retaining position by. said parts, when said parts are in one position, said parts being relatively rotatable to move them relatively into another pcsition to release said retaining means.

14. A sample taking apparatus comprising a tubular stem, a drill at the lower end thereof having an inlet for the sample, a tubular housing in the stem, a tubular sample receiver associated with the housing, means for releasably securing the 40 housing and sample receiver one against longitudinal movement relative to the other, said housing and receiver being provided, one with an inside seat having sample engaging means thereon including upstanding ngers, and the other being downwardly movable when said securing means is released, and being effective, upon such downward movement, to contract said fingers and move said sample engaging means into sample retaining position. 50

REDUS D. DODDS.