US1751348A - Tubular derrick - Google Patents

Tubular derrick Download PDF

Info

Publication number
US1751348A
US1751348A US691860A US69186024A US1751348A US 1751348 A US1751348 A US 1751348A US 691860 A US691860 A US 691860A US 69186024 A US69186024 A US 69186024A US 1751348 A US1751348 A US 1751348A
Authority
US
United States
Prior art keywords
boom
section
cable
tool
derrick
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
Application number
US691860A
Inventor
John J Mitchell
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.)
Individual
Original Assignee
Individual
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.)
Filing date
Publication date
Application filed by Individual filed Critical Individual
Priority to US691860A priority Critical patent/US1751348A/en
Application granted granted Critical
Publication of US1751348A publication Critical patent/US1751348A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • EFIXED CONSTRUCTIONS
    • E21EARTH OR ROCK DRILLING; MINING
    • E21BEARTH OR ROCK DRILLING; OBTAINING OIL, GAS, WATER, SOLUBLE OR MELTABLE MATERIALS OR A SLURRY OF MINERALS FROM WELLS
    • E21B15/00Supports for the drilling machine, e.g. derricks or masts

Definitions

  • This inventionf relates to tubular derricks for well drilling machines and has for its object the revision of a knock-down construction F be reduced to units of suitable size for shipment, and readily reconstructed or ⁇ set up at the place of destination without especially skilled labor and with minimum expenditure of time.
  • the invention may be practiced, in its broadest application, with jerk-lines of any character whatsoever, both fiber and wire cables, but in its more specific adaptation theuse of a wire cable jerk-line is contemplated.
  • Wire cables have theadvantage of longevity and cheapness, but, notwithstanding, the liber cable is considered superior to the wire cable in that it stretches, permitting the tool 20 to fall with comparatively unimpeded momentum, and then by contracting, it deadens the rebound of the tool.
  • 'Wire cable on the other hand, being unyielding, acts as a drag to the free descent of the Atool and also communicates the shock of the impact of the tool to the mechanism of the derrick.
  • Figure 1 is a perspective view of ⁇ my improved derrick, the top being broken away.
  • Figure 2 is a perspective view'of the top ofthe derrickt i
  • Figure 3 isl a longitudinal section through the derrick.
  • Figure 4 is a perspective view showing details ofi-the cross head.
  • Figure 5 is a side elevation partly in section through a modified form of my improved i derrick.
  • Figure 6 is a cross section taken along the line 6 6 of Figure 5.
  • Fi re 7 is a section throu h the u er end di the derrick.
  • s g Pp Figures 8 and 9 are perspective views of the -clamps used respectively in' fastening the tie rod in place and pivotally supporting the derrick. 4
  • Figure 1,0 is across section taken along the line 10-10 of Figure 5.
  • the numeral 1 represents a frame which 6o is adapted to be carried by any suitable form of vehicle, not shown, said frame being suitablyanchored to sleepers 2 and having at some desirable point an eye 3 forming a'bearing for the pivotal connection. of the boom.
  • Said boom which constitutes the derrick proper, consists of telescopic tubular sections 4 and 5.
  • the lower section 4 is pivotally connected to the frame 1 by means of aaclamp 6 embracing said section and having an extending lug 7 formed with an elliptical slot 8 to receive the pivot bolt 9.
  • the boom is capable of Vassuming any position from a horizontal position across the vehicle, when being transported by the latter, to inclined position beyondthe vertical.
  • a drum shaft 10 suitably operated through a gear 11 for winding a cord or cable 12 one end of which is attached to the lower end of the boom by any desirable means such as the snap 13.
  • the shaft 10 is rotated winding up the cable 12 until the boom as- 85 sumes its normal inclined position, as shown in Figure 1 at which point the lower end thereof rests upon the cross member 14.
  • the inner section 5 of the boom is preferably made somewhat smaller than the outer section being slidable within annular spacing members 15 the latter being made of wood or any other suitable material. Inthe present instance they vare held in fixed position within the outer section by a friction t.
  • the lower end of the section 5 is furnished with a cap 16, preferably detachable, which rests upon the cross-head 17, the latter bearing the weight of the boom.
  • a cap 16 preferably detachable, which rests upon the cross-head 17, the latter bearing the weight of the boom.
  • the invention is not limited to any specific form of'cap but the one here shown is quite practical being provided with a slot 18 embracing the crosshead and having a pin 19 intersecting said slot and bearing in a suitable notch 20 in the cross-head.
  • the cross-head 17 passes through slots 2O in the section 4 of the boom and extends therebeyond, being provided with links 21 for connectlg-itglwith supporting cablesf22, said cables running longitudinally along opposite sides of the boom.
  • the cables 22 aresuitably suspended at their upperends from the oppositely extended lugs 23 of a clamp 24, and their length is such that the weight of the inner section 5 is carried by the crosshead clear of the bottom of theslots 20.
  • Said cables are made of elastic material, preferably fibrous rope, so that they possess a certain degree of elastic elongation.
  • the turn-buckles 25 are provided whereby 'the effective length of said cable may be diminished, or should the necessity arise, be increased.
  • the slots 20 are made sufciently longru to include the normal elastic range of said cables.
  • a detachable sheave harp 26 is provided at the top of the inner section 5, said harp necessarily partaking of the reciprocatory movement of the section 5 due to the stretching and contracting of the cables22 in use.'
  • the sides of said harp are therefore provided with guides 27, suitabl attached, which operate in guideways 28 t e range of movements of said guides in said guideways being the same as that of the cross-head 17 in the slots 20.
  • the sheave 29 is journalled in suitable bearings in the sides of the sheave harp.
  • the jerk-line which is preferably of wire, passes over the sheave 29 one limb 31 of said jerkline being anchored to a drum, not shown, on the drilling machine and the other end being secured to the tool 30.
  • the sheave harp and cap 16 are also preferablyvsecured by similar couplings.
  • a ladder isprovided for convenience. in climbing the boom forthe making of repairs or other purposes,"saidlfladdervl being con'- structed of clamps 34 surrounding the outer section and havingnutwardly extending lugs 35' arranged k'in l alternation on opposite sides of the boom', as'sliown in Figure 1, said lugs being formed withzmeans, for example; the angularlyv benten-ds 36, to' which the side strips 37 maybe secured, the lugs acting as steps and the side strips as hand holds to be grasped in climbing the ladder.-
  • FIG. 5 differs from the above described eniibodiment essentially in that the flexible liber cables Havebeen dispensed with. and a resilient block 'dr col@ '5 at its lower end a detachable basecap 59engaging 'the resilient column.
  • a removable cap 41 has been provided at the lower end of the boom, said .cap embracing the knock-downA feature of the former de- ⁇ scribed modification in that it is detachably connected to the lower end of the' outer section by a threaded' coupling 42.
  • the cap 41 When the boom is in a horizontal position the cap 41 may be removed and ⁇ one ormore of the resilient blocks 38 taken away from the column or added thereto as the exigenciesof use may require.
  • ASaid blocks are preferably made from rubber .and ⁇ are appreciably smaller than the bore of the outer section in which they are housed, to give them full freedom in expanding.
  • the operation of the resilient blocks or column of blocks is to contract and shorten, allowing the upper end of the inner section to descend when the tool falls, thus permitting the free exercise of the momentum of the tool against the material to be drilled. And upon rebound of the material, the weight being momentarily lifted from the upper end of the boom, the blocks are relieved in part from their load permitting them to expand, thereby restoringthe resilient col ⁇ umn to its original height.
  • the clamp 45 may be loosened so as to release the cable, the latter being'then in position to be drawn over the sheave 29 by the winding action of the drum on the drilling machine, not shown.
  • the walking beam has the additional advantage of imparting a longer stroke to the tool than is4 practicable with the spudding arm which normally operates the cable over the sheave 29.
  • suliicient of the cable must be aid out from the winding drum to form a Eight or loopy 47 of ample length to' permit the unimpedd action of the walking beam.
  • Said walking beam is preferably :formed of angle irons 48, connected by diagonal bars l49 forming a lattice construction.
  • the clamp 50 by means of which the walking beam is secured in place is provided with oppositely arranged trunnions 51 upon ywhich the walking beam is journalled.
  • the ends of the walking beam are preferably bound togetherl by pins 52 and 53, from oneof which the temper screw is suspended, the other being connected to a rod 54 by means of which the walking beam is actuated.
  • the pins 52 and 53 may be threaded at each end for the reception of a pair of nuts between'which a side of the walking beam is clampd. These nuts furnish a means for adjusting the distance apart -of the side members of the walking beam at said pins.
  • a truss rod 55 may be provided for stii'eningthe booms prevent-ing the bending of the latter when it is inclined in a position approaching the horizontal.
  • .Said truss rod preferably has anv eye embracing the pivot bolt 56.
  • the ends of said truss rod are securely clamped against the outer section of the boom by means of the clamps 57'.
  • One of said clamps is shown in perspective in Figure 8 and indicates that the. clamps may be provided with recesses 58 in which the ends of the truss rod may be housed.
  • Steps similar to those in Figure l may be added to that form of the invention embodied in Figure 5, and in both modifications an auxiliary sheave 60 may be secured at any suitable point on the boom for carrying the cable of a sand bucket.
  • the boom When it is desired to transport the derrick for short distances the boom may be lowered to a substantially horizontal position upon the well drilling machine which, although not shown, is presumed to be of the vehicular type. But when the drilling machine is to be shipped by rail the boom may be knocked-down by unscrewing the several couplings reducing it to the form of a plurality of short tubular sections ofsuch length as to be easily handled and packed for shipment, and a plurality of castings and other small parts of such nature as to be transportable in convenientlyl sized packages.
  • the parts When the derrick, in knock-down condition reaches a new field of operation the parts may be as- ⁇ Sild in a short time, and if need be, by unskilled labor.
  • the weight of a tubularfderrick constructed along the lilies of the present invention is much less than that of the ponderous wooden derricks now in general use.
  • tubular derrickma also be exemplified in numerous other a ternative constructions and I accordingly reserve the rightiof adopting all such legitimate changesk said outer section, and means for supportin a jerk-line, carried by the upper end of sai inner section.
  • a boom for well drilling machines comprising a tubular outer fixed section, an inner section movable axially within said outer section, a plurality of resilient blocks enclosed within said tubular outer section upon which the lower end of said inner section rests, a detachable cap closing the lower end of said outer section and on which said blocks rest and which provides access to said blocks when said cap is ⁇ detached, and jerk-line supporting means carried at the upper end of said inner section.

Landscapes

  • Engineering & Computer Science (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Geology (AREA)
  • Mining & Mineral Resources (AREA)
  • Mechanical Engineering (AREA)
  • Physics & Mathematics (AREA)
  • Environmental & Geological Engineering (AREA)
  • Fluid Mechanics (AREA)
  • General Life Sciences & Earth Sciences (AREA)
  • Geochemistry & Mineralogy (AREA)
  • Earth Drilling (AREA)

Description

March 18, 1930. 1 J, MlTCHELL 1,751,348
TUBULAR DERRIGK Filed Feb. 9, 1924 2 sheets-sheet `1 March 18, 1930. J. J. MITCHELL 1,751,348
' TUBULAR DERRICK Filed Feb. 9, 1924 2 Sheets-Sheet 2 Patented Mar.k 18, 1930.
'PATENT OFFICE JOHN J'. MITCHELL, 0F PETERSBURG, VIRGINIA TUBULAB maniaci:
Application' mea February 9, 1924. serial No. 691,860.
This inventionfrelates to tubular derricks for well drilling machines and has for its object the revision of a knock-down construction F be reduced to units of suitable size for shipment, and readily reconstructed or `set up at the place of destination without especially skilled labor and with minimum expenditure of time.
The invention may be practiced, in its broadest application, with jerk-lines of any character whatsoever, both fiber and wire cables, but in its more specific adaptation theuse of a wire cable jerk-line is contemplated.
Wire cables have theadvantage of longevity and cheapness, but, notwithstanding, the liber cable is considered superior to the wire cable in that it stretches, permitting the tool 20 to fall with comparatively unimpeded momentum, and then by contracting, it deadens the rebound of the tool.` 'Wire cable on the other hand, being unyielding, acts as a drag to the free descent of the Atool and also communicates the shock of the impact of the tool to the mechanism of the derrick.
In order to get the benefit of the advantages of both wire and liber cables, I have incorporated a resilient section into the j erk-line in both embodiments of m invention herein illustrated, between the ed part of the derrick and the tool, using saidsection preferably in combination with a wire cable jerk-line, althoughv it is to be understood that the invention is in no wise invalidated if fiber rope jerk-lines are used.
' In the drawings Figure 1 is a perspective view of` my improved derrick, the top being broken away. Figure 2 is a perspective view'of the top ofthe derrickt i Figure 3 isl a longitudinal section through the derrick.
Figure 4 is a perspective view showing details ofi-the cross head.
Figure 5 is a side elevation partly in section through a modified form of my improved i derrick.
Figure 6 is a cross section taken along the line 6 6 of Figure 5.
the type designated, which can Fi re 7 is a section throu h the u er end di the derrick. s g Pp Figures 8 and 9 are perspective views of the -clamps used respectively in' fastening the tie rod in place and pivotally supporting the derrick. 4
Figure 1,0 is across section taken along the line 10-10 of Figure 5.
Referring now in detail to the several figures, the numeral 1 represents a frame which 6o is adapted to be carried by any suitable form of vehicle, not shown, said frame being suitablyanchored to sleepers 2 and having at some desirable point an eye 3 forming a'bearing for the pivotal connection. of the boom. Said boom, which constitutes the derrick proper, consists of telescopic tubular sections 4 and 5. The lower section 4 is pivotally connected to the frame 1 by means of aaclamp 6 embracing said section and having an extending lug 7 formed with an elliptical slot 8 to receive the pivot bolt 9. By virtue of this 4pivotal connection the boom is capable of Vassuming any position from a horizontal position across the vehicle, when being transported by the latter, to inclined position beyondthe vertical.
Hoisting of the boom is accomplished by means of a drum shaft 10 suitably operated through a gear 11 for winding a cord or cable 12 one end of which is attached to the lower end of the boom by any desirable means such as the snap 13. Starting with the boom in a horizontal posit-ion the shaft 10 is rotated winding up the cable 12 until the boom as- 85 sumes its normal inclined position, as shown in Figure 1 at which point the lower end thereof rests upon the cross member 14.` y The inner section 5 of the boom is preferably made somewhat smaller than the outer section being slidable within annular spacing members 15 the latter being made of wood or any other suitable material. Inthe present instance they vare held in fixed position within the outer section by a friction t. The lower end of the section 5 is furnished with a cap 16, preferably detachable, which rests upon the cross-head 17, the latter bearing the weight of the boom. The invention is not limited to any specific form of'cap but the one here shown is quite practical being provided with a slot 18 embracing the crosshead and having a pin 19 intersecting said slot and bearing in a suitable notch 20 in the cross-head.
The cross-head 17 passes through slots 2O in the section 4 of the boom and extends therebeyond, being provided with links 21 for connectlg-itglwith supporting cablesf22, said cables running longitudinally along opposite sides of the boom. The cables 22 aresuitably suspended at their upperends from the oppositely extended lugs 23 of a clamp 24, and their length is such that the weight of the inner section 5 is carried by the crosshead clear of the bottom of theslots 20. Said cables are made of elastic material, preferably fibrous rope, so that they possess a certain degree of elastic elongation. In the event that they should stretch excessively in use so as to cause the cross-head 17 to engage the bottom of the slots 20, the turn-buckles 25 are provided whereby 'the effective length of said cable may be diminished, or should the necessity arise, be increased. The slots 20 are made sufciently longru to include the normal elastic range of said cables.
A detachable sheave harp 26 is provided at the top of the inner section 5, said harp necessarily partaking of the reciprocatory movement of the section 5 due to the stretching and contracting of the cables22 in use.' The sides of said harp are therefore provided with guides 27, suitabl attached, which operate in guideways 28 t e range of movements of said guides in said guideways being the same as that of the cross-head 17 in the slots 20. The sheave 29 is journalled in suitable bearings in the sides of the sheave harp. The jerk-line, which is preferably of wire, passes over the sheave 29 one limb 31 of said jerkline being anchored to a drum, not shown, on the drilling machine and the other end being secured to the tool 30. lVlren the limb 31 of thejerk-line is released the tool descends to the limit of the inelastic wire cable, the momentum of said tool being then continued through the elasticity of the cables 22 which permit descent of the sheave 29. Upon rebound of the tool the thrust communicated to the wire cable causes the weight of the tool and wire cable to be momentarily taken off of the sheave 29 permitting it to rise to normal position, the shock which would otherwise be communicated to the machine being absorbed by the contraction of the cables 22. Additional means for lessening the transmitted shock is provided in the elliptical form of the slot 8 forming the pivotal connection between the boom and the fixed part of the machine, said slot providing lost motion between the .boom and pivot pin when the former is in operative position.
It often happens in deep wells where the drilling operation is carried on through a liber cable that the range ofuelasticityvisso great as to materially shorten the stroke of the tool as well as to lengthen the periodicity of the strokes, additional time being required for the contraction of the rope after the normal rebound of the tool. By the present device I have provided an elastic link the elastic range of which is fixed regardless of the depth of the well-bein'g"=dri;lled. f QQ l' 1 It will be observed that both the' inner and outer sections of the boom are constructed of conveniently shortsections of tubular stock, threaded at the ends as shown at`32 said ends being; held together by threaded coupling rings 33. The sheave harp and cap 16 are also preferablyvsecured by similar couplings. A ladder isprovided for convenience. in climbing the boom forthe making of repairs or other purposes,"saidlfladdervl being con'- structed of clamps 34 surrounding the outer section and havingnutwardly extending lugs 35' arranged k'in l alternation on opposite sides of the boom', as'sliown in Figure 1, said lugs being formed withzmeans, for example; the angularlyv benten-ds 36, to' which the side strips 37 maybe secured, the lugs acting as steps and the side strips as hand holds to be grasped in climbing the ladder.-
The formshown in Figure 5 differs from the above described eniibodiment essentially in that the flexible liber cables Havebeen dispensed with. and a resilient block 'dr col@ '5 at its lower end a detachable basecap 59engaging 'the resilient column. For convenience in assembling the resilient blocks a removable cap 41 has been provided at the lower end of the boom, said .cap embracing the knock-downA feature of the former de-` scribed modification in that it is detachably connected to the lower end of the' outer section by a threaded' coupling 42. When the boom is in a horizontal position the cap 41 may be removed and `one ormore of the resilient blocks 38 taken away from the column or added thereto as the exigenciesof use may require. ASaid blocks are preferably made from rubber .and `are appreciably smaller than the bore of the outer section in which they are housed, to give them full freedom in expanding.
The operation of the resilient blocks or column of blocks is to contract and shorten, allowing the upper end of the inner section to descend when the tool falls, thus permitting the free exercise of the momentum of the tool against the material to be drilled. And upon rebound of the material, the weight being momentarily lifted from the upper end of the boom, the blocks are relieved in part from their load permitting them to expand, thereby restoringthe resilient col` umn to its original height.
While it is perfectly feasible to substitute a column of resilient blocks for the liber cable arrangement shown in .the irst described modificationof the invention, I have here chosen to illustrate the present form of the invention in connection with a walking beam 43 which is detachably clamped to the outer section of-the derrick at an intermediate pointfv This walking beam is intended for alternative use with respect to the sheave at the upper end of the inner section. It is well known that for relatively shallow wells, that is to say, wells several feet deep, the resilient-supportfor the inner section is most advantageous, for the purpose set forth in the previous description." But for Wells, of
F relative great depth it has been found that there is sufficient resiliency in the wire cable to obtain all the practical advantages attending the use of resilient supports for shallower depths It is therefore a matter of great practical convenience to be able to relievethe wire cable from the resilient action of the rubber blocks 38 or their equivalent, when drilling at great depth and to connect the cable directly to the walking beam, as in the manner shown in Figure 5 by means of the usual temper screw 44. This temper screw has a quick detachable clamp for gripping the cable and the latter may be fed into the well as the tool progresses by means of the screw 46. From time to time when it is necessary to draw the tool out of the well, the clamp 45 may be loosened so as to release the cable, the latter being'then in position to be drawn over the sheave 29 by the winding action of the drum on the drilling machine, not shown. The walking beam has the additional advantage of imparting a longer stroke to the tool than is4 practicable with the spudding arm which normally operates the cable over the sheave 29. When the walking beam is used suliicient of the cable must be aid out from the winding drum to form a Eight or loopy 47 of ample length to' permit the unimpedd action of the walking beam. Said walking beam is preferably :formed of angle irons 48, connected by diagonal bars l49 forming a lattice construction. The clamp 50 by means of which the walking beam is secured in place is provided with oppositely arranged trunnions 51 upon ywhich the walking beam is journalled. The ends of the walking beam are preferably bound togetherl by pins 52 and 53, from oneof which the temper screw is suspended, the other being connected to a rod 54 by means of which the walking beam is actuated. The pins 52 and 53 may be threaded at each end for the reception of a pair of nuts between'which a side of the walking beam is clampd. These nuts furnish a means for adjusting the distance apart -of the side members of the walking beam at said pins. Itis to be' understood that the` -with the disclosure vof said figures may be equallyadapted to ybot-h fornisof the invention.
A truss rod 55 may be provided for stii'eningthe booms prevent-ing the bending of the latter when it is inclined in a position approaching the horizontal. .Said truss rod preferably has anv eye embracing the pivot bolt 56. The ends of said truss rod are securely clamped against the outer section of the boom by means of the clamps 57'. One of said clamps is shown in perspective in Figure 8 and indicates that the. clamps may be provided with recesses 58 in which the ends of the truss rod may be housed.
Steps similar to those in Figure l may be added to that form of the invention embodied in Figure 5, and in both modifications an auxiliary sheave 60 may be secured at any suitable point on the boom for carrying the cable of a sand bucket. When it is desired to transport the derrick for short distances the boom may be lowered to a substantially horizontal position upon the well drilling machine which, although not shown, is presumed to be of the vehicular type. But when the drilling machine is to be shipped by rail the boom may be knocked-down by unscrewing the several couplings reducing it to the form of a plurality of short tubular sections ofsuch length as to be easily handled and packed for shipment, and a plurality of castings and other small parts of such nature as to be transportable in convenientlyl sized packages. When the derrick, in knock-down condition reaches a new field of operation the parts may be as-` sembled in a short time, and if need be, by unskilled labor. The weight of a tubularfderrick constructed along the lilies of the present invention is much less than that of the ponderous wooden derricks now in general use.
While I'have above, described what I have found to be very practical embodiments of my invention, it is nevertheless to be understood that the tubular derrickma also be exemplified in numerous other a ternative constructions and I accordingly reserve the rightiof adopting all such legitimate changesk said outer section, and means for supportin a jerk-line, carried by the upper end of sai inner section. v
2. A boom for well drilling machines comprising a tubular outer fixed section, an inner section movable axially within said outer section, a plurality of resilient blocks enclosed within said tubular outer section upon which the lower end of said inner section rests, a detachable cap closing the lower end of said outer section and on which said blocks rest and which provides access to said blocks when said cap is` detached, and jerk-line supporting means carried at the upper end of said inner section.
In testimony whereof I have hereunto set my hand.y
JOHN J. MITCHELL.
US691860A 1924-02-09 1924-02-09 Tubular derrick Expired - Lifetime US1751348A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US691860A US1751348A (en) 1924-02-09 1924-02-09 Tubular derrick

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US691860A US1751348A (en) 1924-02-09 1924-02-09 Tubular derrick

Publications (1)

Publication Number Publication Date
US1751348A true US1751348A (en) 1930-03-18

Family

ID=24778267

Family Applications (1)

Application Number Title Priority Date Filing Date
US691860A Expired - Lifetime US1751348A (en) 1924-02-09 1924-02-09 Tubular derrick

Country Status (1)

Country Link
US (1) US1751348A (en)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3722154A (en) * 1970-01-31 1973-03-27 T Sakamoto Extensible boom with buckling-prevention
US4408424A (en) * 1981-03-20 1983-10-11 Richard K. Teichgraeber Telescoping cylinder stabilizer

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3722154A (en) * 1970-01-31 1973-03-27 T Sakamoto Extensible boom with buckling-prevention
US4408424A (en) * 1981-03-20 1983-10-11 Richard K. Teichgraeber Telescoping cylinder stabilizer

Similar Documents

Publication Publication Date Title
CN100516450C (en) Telescoping drill string
DE2143944B2 (en) Compensation device
US20080099208A1 (en) Apparatus for performing well work on floating platform
US20080149395A1 (en) Drilling or Service Rig
US1733484A (en) Wire-cable well-drilling device
US1751348A (en) Tubular derrick
US2735556A (en) stone
CN205445485U (en) Integrated securing device that goes up of track -mounted drill
US1724913A (en) Shock-absorbing apparatus for drilling machines using wire cables
US1395971A (en) Pitman construction
US2136596A (en) Well drilling machine
US2422210A (en) Leveling device for cable-tool drills
US1533362A (en) Rotary slip
US3033297A (en) Stub drivers
US2070563A (en) Shock absorber
US1893408A (en) Shock absorbing derrick mast for well drilling machines
SU130010A1 (en) Rotary Impact Drilling Machine
US1442230A (en) Tool-feeding means for drilling rigs
RU2188295C1 (en) Drill
US1096022A (en) Well-drilling machine.
SU116661A1 (en) Burova tower
SU1270225A1 (en) Vibration grapple
SU1078020A1 (en) Floating drilling rig
US731109A (en) Well-derrick.
US1820545A (en) Casing tong