Search Images Maps Play YouTube News Gmail Drive More »
Sign in
Screen reader users: click this link for accessible mode. Accessible mode has the same essential features but works better with your reader.

Patents

  1. Advanced Patent Search
Publication numberUS2298507 A
Publication typeGrant
Publication dateOct 13, 1942
Filing dateOct 6, 1939
Priority dateOct 6, 1939
Publication numberUS 2298507 A, US 2298507A, US-A-2298507, US2298507 A, US2298507A
InventorsPenick Arthur J, Penick Kirby T
Original AssigneePenick Arthur J, Penick Kirby T
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Elevator
US 2298507 A
Abstract  available in
Images(2)
Previous page
Next page
Claims  available in
Description  (OCR text may contain errors)

ELEVATOR 2 Sheets-SheetI 1 Filed Oct. 5. 1939 34 6 5 4 Y ,PN ,7 m JWM g www w V4-1 wm l e w/ n l 1/. o 4 a f (j. 5 N. IL 4 4 4 A 4 4 4 4 4 4 4 44 44444444 Mm `@../W vw MIJ A A 4 l 4 @Lw a i w f( s 4 Lw .K n 2 fw l 3 Uv mv.

Patented Oct. 13, 1942 UNITED STATES PATENT OFFICE 2,298,507'V ELEvA'roR Arthur J. Penick and kirby T. Penick, Houston, Tex.

Application October 6, 1939, ySerial No. 298,281

(ci. 2426s 4 Claims.

This invention relates to an elevator.

An object ofthe invention is to provide an elevator particularly adapted 'for handling a plurality of strings of pipe or tubing while simultaneously makingr up or breaking out thestrings, in lowering the same into or withdrawing .the same from a well.

Another object of the invention is to provide, in an elevator, a novel 'slip jaw assembly for engaging and supporting a plurality 'of strings of pipe or tubing,

The invention also embodies novel means for actuating the slip jaws into active Ior inactive positions. Y

With the above and YVother objects 'in view the invention has particular relation to certain novel features of Construction, 'operation and arrangement Vo'i parts, an example of which is given in this specification and illustrated in the .accompanying drawings, 'wl'i'erein-Y y Figure 1 'shows a planV view of the elevator shown partly in section.

Figure 2 shows a vertical, sectional view taken on the line 2-2 of Figure 1.

Figure 3 shows a vertical, sectional viewtaken on the line 3-3 'of Figure 1, and

Figure 4 `shows a fragmentary, vertical, 'Sectional view 'taken 'on the line 4-''4 'of Figure Ll.

Referring 'now more particularly 'to the drawings, wherein like 'numerals "of re'ference "designate the same parts in 'each of 4-the figures, rthe numerals I and 2 designate complementary sections of the 'elevatory vloodywhichjare substantially similar in general'contour. At one-side *the section I is Vprovided with the upper and 'lower spaced hinge 'members 3, 4'van/d tted clo'sely'between the hinge members 3, 4 'there is 4a hinge 'member 5 ncarried bythe section 2. The :hinge members 3, 4, 5 have an aligned bearinglto vreceive the hinge bolt Shaving the ie'nlargedh'ea'd 1 on its upper end and whose lower'endlisthreaded to receive the retaining nut 8. A hinge `between the sections, I, 2 is `thus formed. l g

At the other side the 'section 2 'isjprovidedvwith the upper and lower spaced lugs '9, `IIJ andthe section I is provided withan intermediate vlugfll adapted to t between 'the lugs-i9, IU, when the elevator is in closed position'and these lugsg, l, II have a bearing through them to receive fthe latch bolt 'I 2 whose upper end is provided'with an the elevator may be swung 'into 'open position.

When theelevator is clos'ed'about'the tubingthe cal Lrod's @43,143 raridfflM, 44. 45

lfanges and :through :enlarged bores fas145, vIIIi in may be engaged. Spaced beneath these respective hooks fare the arms I9, 20 extending radially outwardly from'fthe respective body sections and retaining bolts 2|, 22 are `fitted downwardly through the bail hooks and through the corresponding arms I9, 20 and are retained in place by the heads 23, 24 at their upper ends 'and the nuts 25, 26 at their lower ends.

The bails II, 18 are provided for engagement with the hook of the 'conventional travelling block which is operable in the derrick by the appliances commonly used for such purposes.

lThe body sections ilan'd 2., at .their Vupper and lower ends, have the opposing complemental inwardlylext'ending Aanges 21, 128 a'nd 29, .30 as more 'accurately shown .in Eigures 3 and 4. These up. per and .lower anges'have the central cutaway por-'tions providing the foblon'g upper 'and lower slots 53|, 32 to :permit the passage, through the elevator of `the `tubing nrpnue, such as 33, 34.

'The leleviait'or :body :has the inside, upper `and lower, downwardly tapering seat`s`,3 5, ,3,6, which arel spaced apart .as shown fin .Figure 2 to provide an inside cylindrical inner wall 3l between them. 'These upper :and .flower seats are approximately `circular v"in 'horizontalfcross-section when the tbody .betweenthe supper ang'es 2152.8 aand the lower Fanges 29,'30as shovmTinF-igures-S and4. ,They lare -retained .against displacement by they `verti- 'Thejse retaining rods 43,5415 are fitted through ,the upper .and llower fthe-slipjawsandzare retainedin vplace byf enlarged ,heads-latione -endiand nuts screwed :onto their thu's Ahave 15a `limited :upward and outward, or downward and inward movement iasis necessary iniorfd'erlto releasethem from, vLoricause .them to The facing sidesof thefA slipljaws lhave :the i complemental vertical grooves 49, 49 and 50, 50 which Cil broken up, the elevator is engaged about the tubing and then elevated and held elevated by the usual tubing slips.

plings and the upper sections of the stringsare unscrewed from the couplings so as to be laid aside. While the upper sections of the tubing are being unscrewed the slip jaws 38, 39 should be moved upwardly and outwardly on their seats in the elevator body so as to release the tubing. Means have been provided for so moving said slip jaws which will now be described.

Mounted to rotate on the vertical pivot pins I, 52 are the grip members or handles 53, 54 whose inner ends are fitted through the transverse slots 55, 56 of the body sections I and 2. 'I'he inner ends of these handles are disc-like in form and have the arcuate cams 51, 58 on their upper faces. The slip jaws 3B, 39 have the eX- ternal recesses 59, B0 into which the inner ends of the handles project as shown more clearly in Figure 4 and depending into the recesses 59, 60 and bearing against the cams 51, 58 are the bosses 6I, 62 whose lower ends are rounded oil and ride on the cam faces 51, 58. The operator may swing the grip members 53, 54 toward each other in the direction indicated by the arrows in Figure 1 causing the cam faces to act through the bosses 6I, 62 and elevate the slip-jaws causing them to move upwardly and outwardly so as to release the tubing.

When the upper sections of the tubing have been unscrewed from the string beneath they may be swung to one side and with the jaws in said released position the operator may then withdraw the pin I2 permitting the elevators to swing open and release the pipe and the elevator may then be lowered and engaged about the upper end of the string beneath for the purpose of again elevating the string as before. the elevator has been engaged about the tubing the grips 53, 54 may again be swung about toward each other so as to elevate the slip jaws to permit the elevator sections to be closed about the tubing with the slip jaws out of engagement with the tubing so that the pin I2 may be easily inserted through the aligned bearings of the lugs 9, IB, II and thereupon the grips 53, 54 may be swung apart into the position shown in Figure 1 to permit the jaws to move downwardly and inwardly into their lower position and into engagement with the tubing. It will thus be seen that provision is made -for moving the slip jaws upwardly and outwardly in the elevator body out of contact or engagement withthe tubing when it is desired to withdraw the pin I2 or to insert it so that the bearings throughthe lugs 9, ID, II may easily' be brought into alignment to permit withdrawal or insertion of the pin I2 without binding.

It is obvious that the elevator may be manipulated in a similar manner to that above described while making up the tubing and lowering the string into the well.

It may be here noted that the sections I and 2 are provided with grips 63, 63 and 64, 54 for easy handling of the elevator in carrying on the work for which it is intended.

These slips are engaged about the strings of tubing beneath tubing cougether at one side, means for releasably securing the sections together at the other side, said body having an inside, downwardly converging seat, complemental slip jaws having external recesses and depending bosses therein and shaped, externally, to conform to the contour of and to fit on said seat and whose facing sides are shaped to t around and simultaneously grip a plurality of strings of tubing and manually operable means mounted in the body and working in the recesses against the bosses whereby the jaws may be moved upwardly and outwardly.

2. An elevator of the character described comprising an elevator body formed of two complemental sections hinged together Vat one side, a latch -for releasably securing said sections together at the other side, said body having an inside, downwardly converging seat, a pair of complemental slip jaws shaped to fit said seat, whoseinside faces are shaped to fit around and grip a plurality of strings of tubing, means on the jaws to align the jaws with each other, flanges on the sections having tubing receiving openings and substantially enclosing the seat and jaws, means for loosely mounting each of said jaws in the respective section, and means on the sections including cams effective to move the jaws out of wedging relationship in the seat.

3. An elevator of the character described comprising an elevator body formed of two complemental sections hinged together at one side, a latch for releasably securing said sections together at the other side, said body having an inside, downwardly converging seat, a pair of complemental slip jaws shaped externally to fit said seat and whose inner sides present confronting flat faces having a pair of complemental vertical grooves which are internally toothed forming gripping faces adapted to engage about and grip separate strings of tubing in side by side relation, flanges on the sections, having tubing receiving openings substantially enclosing the seat and jaws, means for loosely mounting each of said jaws in the respective section, means on the jaws to cause one to alignV with the other, depending bosses on the sections and cam means on the sections arranged to co-act with the bosses to move the jaws out of seating relationship in the seat. Y

4. An elevator of the character described comprising an elevatorbody having an inside downwardly converging seat, complemental slip jaws shaped, externally, to conform to the contour of and to t on said seat and whose inner sides are shapedto t around and simultaneously grip a plurality of strings of tubing, means mounted -in the body for elevating the jaws relative to the seat, said elevating means and the respective jaws being provided one with cam means and the other with means to co-act with the cam means whereby, upon appropriate manipulation of the -elevating means, said slip jaws will be elevated relative'to the seat.

ARTHUR J. PENICK. KIRBY T. PENICK.

Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US3015142 *Nov 14, 1958Jan 2, 1962Richard A RosanoffFriction gripping device
US3154145 *Nov 23, 1959Oct 27, 1964Brown Oil ToolsMethods of and apparatus for running multiple pipe strings and well packers in well packers in well bores
US3154146 *Jan 9, 1961Oct 27, 1964Brown Oil ToolsMethods of and apparatus for handling multiple pipe strings and well packers
US3188708 *Mar 12, 1962Jun 15, 1965O'haver Homer WSlip assembly for parallel tubing strings
US3197835 *Jul 2, 1962Aug 3, 1965Brown Cicero CPower-operated elevator devices for well pipe
US3272266 *May 6, 1964Sep 13, 1966Kennard Thomas AApplication for rotatable power elevator
US4354706 *Jun 2, 1980Oct 19, 1982Bilco Tools, Inc.Dual string elevators
US6322348Oct 18, 1999Nov 27, 2001Norstar Aluminum Molds, Inc.Rotational mold automated clamping system
US6422311Oct 27, 1998Jul 23, 2002Weatherford/Lamb, Inc.Apparatus for retaining two strings of tubulars
US6892835Jul 29, 2002May 17, 2005Weatherford/Lamb, Inc.Flush mounted spider
US7124828Jun 18, 2002Oct 24, 2006Weatherford / Lamb, Inc.Apparatus for retaining two strings of tubulars
US7143849Nov 30, 2004Dec 5, 2006Weatherford/Lamb, Inc.Flush mounted spider
US7249637Jan 18, 2005Jul 31, 2007Weatherford/Lamb, Inc.Method and device to clamp control lines to tubulars
US7314090Sep 20, 2004Jan 1, 2008Weatherford/Lamb, Inc.Automatic false rotary
US7370707Apr 5, 2004May 13, 2008Weatherford/Lamb, Inc.Method and apparatus for handling wellbore tubulars
US7665551Dec 4, 2006Feb 23, 2010Weatherford/Lamb, Inc.Flush mounted spider
US7673691Oct 23, 2006Mar 9, 2010Weatherford/Lamb, Inc.Apparatus for retaining two strings of tubulars
US7681631Nov 21, 2007Mar 23, 2010Weatherford/Lamb, Inc.Automatic false rotary
US7681649 *Nov 8, 2007Mar 23, 2010Tesco CorporationPower slips
US7686088May 10, 2006Mar 30, 2010Weatherford/Lamb, Inc.Equalized load distribution slips for spider and elevator
US7717184Nov 30, 2006May 18, 2010Weatherford/Lamb, Inc.Safety interlock for control lines
US7740078Jul 31, 2007Jun 22, 2010Weatherford/Lamb, Inc.Method and device to clamp control lines to tubulars
US8020627Jan 15, 2010Sep 20, 2011Weatherford/Lamb, Inc.Equalized load distribution slips for spider and elevator
WO1999022111A1 *Oct 27, 1998May 6, 1999Jansch ManfredAn apparatus for retaining two strings of tubulars
Classifications
U.S. Classification188/67, 294/102.2
International ClassificationE21B19/07, E21B19/00
Cooperative ClassificationE21B19/07
European ClassificationE21B19/07