US3100015A - Method of and apparatus for running equipment into and out of wells - Google Patents

Description

J. REGAN Aug. 6, 1963 3 100 015 METHOD OF AND APPARATUS FOR RUNNING EQUIPMENT INTO AND OUT OFWELLS 3 Sheets-Sheet 1 Filed Oct. 5," 1959 I miEEEEEEE V Clam/56m;

INVENTOR.

WAANA'IVIIII VIIIIIA BY H15 Abram/re s.

27 9215; lECl-f, Russell. LFd'EQ K Aug. 6, 1963 J. REGAN 3,100,015

METHOD OF AND APPARATUS FOR RUNNING EQUIPMENT INTO AND OUT OFWELLS 3 Sheets-Sheet 2 Filed Oct. 5, 1959 :i (Iain/ 12562;INVENTOR 4 915 Inf/s01. 3053544 6' 1452M 1963 J. REGAN 3,100,015

METHOD OF AND APPARATUS FOR RUNNING EQUIPMENT INTO AND OUT OF WELLS Filed Oct. 5, 1959 5 Sheets-Sheet 3 L d aw! 564 1% INVENTOR.

BY ms Arm/ways United States Patent Office 3,100,015 Patented Aug. 6, 1963 3,10%,015 METHOD OF AND APPARATUS FUR RUNNING EQUIPMENT INTO AND @UT F WELLS John Regan, Rolling Hills, Calih, assiguor to Regan Forge and Engineering Company, San Pedro, Caliil,

a corporation of California Filed Oct. 5, 1959, Ser. No. 844,427 Claims. (Cl. 16646) The present invention relates in general to an apparatus for running equipment into or out of a well under pressure and a primary object of the invention is to maintain the upward pressure force applied to the equipment at a value not substantially in excess of the weight of the equipment, and preferably at a value less than the weight of the equipment, particularly when running the equipment into the well. Consequently, control of the equipment is maintained at all times, which is an important feature of the invention.

More particularly, the invention relates to an apparatus which is commonly known as a lubricator and, for convenience, the invention will be considered herein as applied to a lubricator for running a sectional tubing string into or out of a well under pres-sure. However, it will be understood that the invention is susceptible of other applications and is not limited to a tubing string lubricator.

As background, a tubing string lubricator includes the fol-lowing elements: tubular housing means positionable generally vertically over the well and providing an elongated lubricator chamber of a size to receive at least one section of the tubing string therein, the tubularhousing means including coupling means, preferably at its lower end, for opening the lubricator chamber to provide for access to the tubing string joints; an energizable lower packer below the tubular housing means, the lower packer, when energized, being engageable with the tubing string to confine the well pressure; an upper packer connected to the upper end of the tubular housing means; tubingstring supporting means, preferably a polished rod, extending downwardly through the upper packer into the lubricator chamber and having at its lower end attachment means connectible to the tubing string, the upper packer being engage-able with the polished rod; and energizable slip means below the tubular housing means and engageable with the tubing string to prevent upwland or downward movement thereof, the lower packer and the slip means being connectible to the top of the well.

Assuming that a lubricator of the foregoing type is being utilized to run a sectional tubing string out of the well, the uppermost section of the tubing string is moved upwardly into the lubricator chamber with the slip means and the lower packer deenergized so that they are out of engagement with the tubing string. Under such conditions, the well pressure is confined in the lubricator chamber by the upper packer in engagement with the polished rod, or equivalent. Once the uppermost section of the tubing string is within the lubricator chamber, the lower packer is energized to confine the well pressure and the slip means is energized to prevent either upward or downward movement of the tubing string. Then, the coupling means mentioned is opened to open the lubricator chamber, whereupon the uppermost tubing section may be disconnected from the tub'mg section therebeneath and may also be disconnected from the polished rod. The uppermost tubing section is then removed from the lubricator chamber and the lower end of the polished rod is connected to the next tubing section. Thereupon, the lubricator chamber is closed by the coupling means mentioned and the foregoing events are repeated to remove the next section of the tubing string.

As successive sections of the tubing string are removed from the well in the foregoing manner, the tubing string becomes progressively lighter until, eventually, the up ward pressure force applied to the tubing string by the pressure in the well exceeds the weight of the tubing string with the result that the well pressure tends to force the tubing string upwardly out of the well. In accordance with the teachings of the prior art, various snubbing devices are utilized under such conditions to keep the tubing string under control, such snubbing devices also being utilized in running the [tubing string into the Well until such time as the weight of the tubing string exceeds the upward pressure force applied thereto. The use of snubbers to run the tubing string into the well, or to maintain control over the tubing string in running it out of the well, is quite hazardous and involves considerable risk of damage to the well installation and injury to personnel, the reason being that failure of any component of the snubbing equipment can result in complete loss of control of the tubing string.

As previously indicated, the present invention overcomes the foregoing problems by maintaining the upward pressure force applied to the tubing string at a value not substantially in excess of the weight of the tubing string even when running the tubing string out, the upward pressure force being maintained at 'a value less than the weight of the tubing string when running the tubing string in. Thus, no snubbing devices of any kind are necessary and the weight of the tubing string is utilized at all times to maintain control thereof.

An important object of the invention is to maintain the desired relation between the weight of the tubing string and the upward pressure force applied thereto by changing the diameter of the polished rod, or other supporting means for the tubing string, as the weight of the tubing string varies. More particularly, the invention contemplates using polished rods of progressively decreasing diameters as the weight of the tubing string decreases in running the tubing string out of the well, this procedure being reversed in running the tubing string in. Expressed dilierently, the invention contemplates using a polished rod having a cross sectional area sufficient to support the weight of the tubing string, but insuflicient to produce an excessive upward Pressure force.

Another object of the invention is to locate the slip means below the lower packer so that the slip means is always exposed to well pressure. Consequently, the operating conditions to which the slip means is exposed are constant, which is an important feature.

The foregoing objects, advantages, features and results of the present invention, together with various other objects, advantages, features and results thereof which will be evident to those skilled in the art in the light of this disclosure, may be attained with the exemplary embodiment of the invention described in detail hereinafter and illustrated in the accompanying drawings, wherein:

FIG. 1 is an elevational view of a well head installation which incorporates the lubricator of the invention;

FIG. 2 is an enlarged vertical sectional view taken in the region of FIG. 1 which is spanned by thebracket 2;

FIG. 3 is an enlarged view, partially in elevation and partially in vertical section, which is taken in the region of F IG. 1 spanned by thebracket 3;

FIG. 4 is an enlarged view, partially in vertical section and partially in elevation, which is taken in the region of FIG. 1 spanned by thebracket 4; and

FIGS, 5, 6 and 7 are semidiagrammatic views of the well head installation illustrating the operation of the invention.

Referring particularly to FIG. 1 of the drawings, thenumeral 10 designates a well casing provided at its upper end with theusual casing head 12, or the like. As is conventional, ablowout preventer 14 is located above and is connected to thecasing head 12. An energizable slip means 16 is located above and is connected to theblowout preventer 14, and above and connected to the slip means is an energizable lower packer 13. -Above thelower packer 18 and connected at its lower end to such packer is a tubular housing means 20 which provides an elongated,upright lubricator chamber 22 of a size to receive therein at least onesection 24, FIG. 6, of asectional tubing string 26, thetubing section 24 having acoupling 28 at its upper end and being connected to thenext tubing section 30 by acoupling 32. The tubular housing means 20 includes coupling means 34, preferably at the lower end thereof, for opening thelubricator chamber 22 to provide access to the couplings connecting the sections of thetubing string 26, such as thecouplings 28 and 32. Connected to the upper end of the tubular housing means 20 is an energizableupper packer 36 and extending downwardly through such upper packer into thelubricator chamber 22 is a tubing-string supporting means, shown as apolished rod 38, having at its lower end attachment means 40 connectible to the couplings of thetubing string 26, such as thecoupling 28.

As shown in FIG. 1 of the drawings, theblowout preventer 14, the slip means 16, thelower packer 18, the tubular housing means 20 and theupper packer 36 are all aligned with the well casing so that each section of thetubing string 26 may move upwardly from the Well casing through the blowout preventer, the slip means and the lower packer into thelubricator chamber 22 as the tubing string is run out of the well. Conversely, when running thetubing string 26 into the well, each section thereof is moved downwardly from thelubricator chamber 22 through thelower packer 18, the slip means 16 and theblowout preventer 14 into thewell casing 10.

' Considering the foregoing generally-designated components in more detail, theblowout preventer 14 may be of any suitable type, the one illustrated in :FIG. 4 of the drawings being substantially identical to that disclosed in Patent 'No. 2,846,178, granted August 5, 1958 to Burt Stanley Minor. Theblowout preventer 14 shown is hydraulically energizable through lines '42 connected to any suitable source, not shown, of pressure fluid. As will be understood, theblowout preventer 14 is adapted to engage thetubing string 26 in a (fluid-tight manner to prevent the well from blowing out. i

The slip means '16, which is shown in FIG. 4, may also be of any suitable constructon and is preferably double acting, i.e., is preferably capable of preventing both upward and downward movement of thetubing string 26. To achieve this, the slip means .1 6 is provided with two sets ofslips 44 and 46, the set ofslips 44 being adapted to prevent upward movement of the tubing string and the set ofslips 46 downward movement thereof. Theslips 44 and 46 are preferably self energizing so that they grip thetubing string 26 more tightly in response to upward and downward movement thereof. To accomplish this, eachslip 44 and 46 includes a wedge-shaped jaw 48 carri-ed by acomplementary jaw holder 50, each jaw being biased toward a retracted position by a spring 5-2. The slip means 16 is hydraulically energizable and deenergiz able, theslips 44 and 46 having connected theretopistons 54 reciprocable incylinders 56. In order to energize the slip means 16, pressure fluid is admitted to the outer ends of thecylinders 56 throughlines 58, as best shown in FIG. 4 of the drawings. To deenergize the slip means 16, pressure fluid is admitted to the inner ends of the cylinders '56 throughlines 60, as also shown in FIG. 4 of the drawings. Thelines 58 and 60 may be connected to any suitable source, not shown, of pressure fluid.

An important feature of the present invention is that the slip means 16 is located below thelower packer 18, instead of above such packer as in prior lubricators.

Consequently, the slip means 16 is always subjected to the well pressure to provide constant operating conditions.

Thelower packer 18 is suitably connected to the upper end of the slip means 16 and may be of any suitable type. For example, thelower packer 18 may have the construction disclosed in Patent No. 2,945,665, granted July 19, 1960 to Louis M. Regan and Darrell L. Sims. Basically, thelowerpacker 18, as shown in FIG. 3, comprises ahousing 62 having therein anelastomeric sleeve 64 adapted to be displaced radially inwardly into fluid-tight engagement with thetubing string 26 by fluid pressure applied thereto through aline 66. The latter is connected to any suitable source, not shown, of pressure fluid.

The tubular housing means 2t) forming thelubricator chamber 22 may have any desired structure. In the construction shown, the tubular housing means 20 comprises two threadedlyinterconnected tubes 68 and 70. Thetube 68 is threadedly or otherwise connected to theupper packer 36 and thetube 70 is threadedly or otherwise connected to the coupling means 34.

Any easily connectible and disconnectible coupling may be utilized for the coupling means 34. Referring to FIG. 3, in the particular construction illustrated, the coupling means 3 4 is of the union type and includesfittings 72 and 74 connectible by agland 76 seated against a shoulder on the fitting 72 and threaded onto the fitting '74. The fitting '72 is threaded onto the tube '70 of the tubular housing means 20 and the fitting 74 is threadedly connected to thelower packer housing 62.

As will be explained in more detail hereinafter, the coupling means 34 is disconnected to open thelubricator chamber 22 after energizing thelower packer 18 so that the lower packer confines the well pressure. However, fluid at the well pressure is trapped in thelubricator chamber 22 upon energizing the lower packer '18, and such pressure must be dissipated prior to disconnecting the coupling means 34. In the construction illustrated, this is accomplished by opening avalve 78, FIG. 1, in the line 8t? communicating with the interior of thelower packer housing 62 above theelastomeric sleeve 64. Such communication is indicated by the broken line passage 82 in FIG. 3 of the drawings.

Theupper packer 36, shown in FIG. 2, which may be of the type shown in Patent No. 2,746,709, issued May 22, 1956 to Bur-t S. Minor, includes a housing 84 having therein anelastomeric sleeve 86 which is hydraulically movable radially inwardly into engagement with an elastomeric bushing 83 on thepolished rod 38 to cause thebushing 88 to engage the polished rod in a fluid-tight manner. Pressure fluid from any suitable source, not shown, is applied to theelastomeric sleeve 86 through aline 90. Theelastomeric bushing 88 is held in place by aretainer 92 which may be disconnected from the housing 84 to permit removal of the elastomeric bushing. Thus, when thepolished rod 38 is replaced by one of a different diameter, as hereinafter described in more detail, theelastomeric bushing 88 may also be replaced by one of a diameter corresponding to that of the substituted polished rod.

The attachment means 40 at the lower end of thepolished rod 38 may simply comprise a threaded connection between the lower end of the polished rod and one of the couplings, such as thecouplings 28 and 32, of thetubing string 26. The attachment means 40 is preferably large enough in diameter to prevent passage thereof through one of the lower components of the installation, such as thepacker 18, or the slip means 16, so as to prevent loss of thetubing string 26 into the well in the event of failure of thepolished rod 38. Preferably, the attachment means 40 engages thetubing string 26 in a fluidtight manner to prevent the build up of pressure in the tubing string below the attachment means, thereby minianizing the volume of fluid to be bled off from the lubricator chamber22 prior to opening same.

The weight of thetubing string 26 may be supported by a cable '94, FIGS. 1 and 5 to 7, connected to aneye 96 Operation In considering the operation of the invention, it will be assumed that thetubing string 26 is being run out and the steps involved in removing thetubing section 24 from the well will be described.

Initially, thetubing string 26 is in the position shown in FIG. 5 of the drawings and the slip means 16 and thelower packer 18 are energized, the former preventing either upward or downward movement of the tubing string and the latter confining the well pressure. With the tubular housing means 2% connected to thelower packer 18 by the coupling means 34 as shown in FIG. 5, theupper packer 36 is energized and thelower packer 18 is deenengized, whereupon the upper packer confines the well pressure. At this point, the slip means 16 is deenergized and thetubing string 26 is moved upwardly by means of thecable 94 until thetubing section 24 is entirely within thelubricator chamber 22, as shown in FIG. 6 of the drawings. It will be understood that the well pressure acting on thetubing string 26 assists in the upward movement of the tubing string, the upward pressure torce preferably being maintained at a value less than the weight of the tubing string in the manner hereinafter explained. It will also be understood that upward flow through thetubing string 26 itself is prevented in any suitable manner, as shown, for example, in Patents Nos. 1,895,132 and 2,758,654, respectively issued January 24, 1933 and August'l4, 1956 to Burt S. Minor and Drury M. Simmons.

With thetubing section 24 within thelubricator chamber 22, the slip means '16 and thelower packer 18 are again energized, whereby the slip means prevents movement of the tubing string and the lower packer confines the well pressure. The well pressure in thelubricator chamber 22 is then bled ofi by opening the valve 73, whereupon the coupling means 34 is disconnected to open the lubricator chamber. This accomplished, theupper packer 36, which is preferably deenergized at this stage, and the tubular housing means are moved upwardly by means of thecables 98 so that the tubing section 24- may be disconnected from the tubing section at thecoupling 32, as shown in FIG. 7 of the drawings. Then, the tubing section 24- and thepolished rod 38 are lowered relative to theupper packer 36 and the tubular housing means 20 to provide access to the connection between the attachment means 49 and thecoupling 28 to permit disconnecting thetubing section 24 from thepolished rod 38. The polished rod is then connected to thetubing section 30 by connecting the attachment means 4h to thecoupling 32, not shown, and the tubular housing means 20 is reconnected to the lower packer 13 by the coupling means 34. The foregoing steps are then repeated to withdraw thenext tubing section 3% from the well.

In running thetubing string 26 into the well, the procedure is essentially the reverse of that described above. Consequently, a detailed explanation is not necessary.

It will be apparent that as thetubing string 26 is run out of the well, its weight is eventually reduced to a value approaching the upward force applied to the tubing string by the pressure in the well, the upward pressure force being the product of the cross sectional area of thepolished rod 38 and the diiference between the well pressure and atmospheric pressure. At this point, thepolished rod 38 is replaced by a smaller polished rod, i.e., one having a smaller diameter. At the same time, the elastomeric bushing '88 is replaced by a correspondingly smaller one. As will be apparent, substituting a smaller polished rod reduces the upward pressure force acting on thetubing string 26 by reducing the cross sectional area exposed to the difference between the well pressure and atmospheric pressure.

Normally, several polished rods of progressively smallor diameter are utilized as thetubing string 26 is run out of the well, a smaller polished rod being substituted each time the upward pressure force acting on the tubing string approaches the weight of the tubing string remaining in the well. For example, polished rods ranging in diameter from 1% inches down to /2 inch may be utilized in the course of running out thetubing string 26, although this range of diameters will vary with variations in the size and length of the tubing string and is intended as illustrative only. For example, thepolished rod 38 may be a wire line having a diameter of less than 0.1 0 inch with very little pipe in the hole.

As hereinbefore indicated, the upward pressure force acting on thetubing string 26 is preferably maintained at a value less than the weight of the tubing string so that there is always a net downward force applied to the string. However, in running the tubing string out, it is not essential that the polished rod diameter be decreased before the upward pressure force exceeds the weight of the tubing string, so long as the difference between the weight of the tubing string and the upward pressure force does not become so large as to make control of the tubing string difiicult. It will be understood that, under such conditions, the tubing string is permitted to move upwardly a section at a time as the result of the upward pressure force acting thereon. *However, in running the tubing string in, the upward pressure force is preferably maintained at a value less than the weight of the tubing string at .all times so that the weight of the tubing string always acts to move the tubing string downwardly in the well. Thus, in progressively increasing the diameter of thepolished rod 38 in running thetubing string 26 in, a larger diameter polished rod is not substituted until the weight of the tubing string is high enough to exceed the upward pressure force with the substituted polished rod in place.

Considering the invention from a more general point of view, the invention never permits the upward pressure force applied to the tubing string to exceed the weight of the tubing string by an amount which cannot be controlled safely with the slip means 16. Even if the upward pressure force is permtited to exceed the weight of the tubing string, particularly in running the tubing string out, the force differential can be maintained low enough, by going to progressively smaller polished rods, that the tubing string can always be stopped with the slip means 16, or even with thelower packer 18. Thus, the tubing string is always kept under complete control and this result is achieved without the use of snubbing devices, or the like.

Although an exemplary embodiment of the invention has been disclosed herein for purposes of illustration, it will be understood that various changes, modifications and substitutions may be incorporated in such embodiment without departing from the spirit of the invention as defined by the claims which follow.

Iclaim:

1. In combination: tubular housing means positionable generally vertically over a well and providing an elongated chamber of a size to receive at least one section of t3. sectional tubing string therein, said tubular housing means including coupling means for opening said elongated chamber to provide for access to the tubing string; a contraotible lower packer connected to the lower end of said tubular housing means, said lower packer, when contracted, being engageable with the tubing string and being conneotible to the top of the well; means for contracting said lower packer onto the tubing string; an upper packer connected to the upper end of said tubular housing means; and supporting means extending downwardly through said upper packer into said elongated chamber and engageable by said upper packer and having at its lower end attachment means connectible to the tubing string, that portion of said supporting means which is within said elongated chamber being sm-filer than and out of engagement with the periphery of said elongated chamber throughout the entire length of said elongated chamber so that the pressure within said elongated chamber is uniform from one end thereof to the other, whereby said supporting means and the tubing string are hydraulically balanced in the vertical direction, except for the cross sectional area of said supporting means extending upwardly through said upper packer :and exposed to atmospheric pressure.

2. In combination: tubular housing means positionable generally vertically over a well and providing an elongated chamber of a size to receive at least .one section of a sectional tubing string therein, said tubular housing means including coupling means for opening said elongated chamber to provide for access to the tubing string; a contractible lower packer connected to the lower end of said tubular housing means, said lower packer, when contracted, being engageable with the tubing string and being connectible to the top of the well; means for contracting said lower packer onto the tubing string; a contractible upper packer connected to the upper end of said tubular housing means; supporting means extending downwardly through said upper packer into said elongated chamber and engageable by said upper packer and having at its lower end attachment means connectible to the tubing string, that portion of said supporting means which is within said elongated chamber being smaller than and out of engagement with the periphery of said elongated chamber throughout the entire length of said elongated chamber so that the pressure within said elongated chamber is uniform from one end thereof to the other, whereby said supporting means and the tubing string are hydraulically balanced in the vertical direction, except for the cross sectional area of said supporting means extending upwardly through said upper packer and exposed to atmospheric pressure; and means for contracting said upper packer onto said supporting means.

3. In combination: tubular housing means positionable generally vertically over a well and providing an elongated chamber of a size to receive at least one section of a sectional tubing string therein, said tubular housing means including coupling means at the lower end of said elongated chamber for opening said elongated chamber to provide for access to the tubing string; a contractible lower packer connected to the lower end of said tubular housing means, said lower packer, when contracted, being engageable with the tubing string and being connectible to the top of the well; means for contracting said lower packer onto the tubing string; a contractible upper packer connected to the upper end of said tubular housing means; supporting means including a polished rod extending downwardly through said upper packer into said elongated chamber and engageable by said. upper packer and having at its lower end attachment means connectible to the tubing string, said supporting means being smaller than and out of engagement with the periphery of said elongated chamber throughout the entire length of said elongated chamber so that the pressure within said elongated chamber is uniform from one end thereof to the other, whereby said supporting means and the tubing string are hydraulically balanced in the ventical direction, except for the cross sectional area of said polished nod extending upwardly through said upper packer and exposed to atmospheric pressure; and means for contracting said upper packer onto said polished rod.

4. in an apparatus connectible to the top of a well in alignment therewith for running a sectional tubing string, or the like, into or out of the well under pressure, the combination of: tubular housing means positionable generally vertically over the well and providing an elon gated chamber of a size to receive at least one section of the mbing string therein, said tubular housing means ineluding coupling means for opening said elongated chamber to provide for access to the tubing string; a contract ible lower packer connected to the lower end of said tubular housing means, said lower packer, when contracted, being engageable with the tubing string; means for contracting said lower packer onto the tubing string; an upper packer connected to the upper end of said tubular housing means; supporting means extending downwardly through said upper packer into said elongated chamber and engageable by said upper packer and having at its lower end attachment means conneotible to the tubing string, that portion of said supporting means which is within said elongated chamber being smaller than and out of engagement with the periphery of said elongated chamber throughout the entire length of said elongated chamber so that the pressure within said elongated chamher is uniform from one end thereof to the other, whereby said supporting means and the tubing string are hydraulically balanced in the vertical direction, except for the cross sectional area of said supporting means extending upwardly through said upper packer and exposed to atmospheric pressure; means tor contracting said upper packer onto said supporting means; and slip means below and connected to said lower packer, said slip means being engageable with the tubing string and being directly connectible to the top of the well.

5. In an apparatus connectible to the top of a well in alignment therewith for running a sectional tubing string, or the like, into or out of the well under pressure, the combination of: tubular housing means positionable generally vertically over the well and providing an elongated chamber of a size to receive at least one section of the tubing string therein, said tubular housing means mcluding coupling means for opening said elongated chamber to provide for access to the tubing string; a contractible lower packer connected to the lower end of said tubular housing means, said lower packer, when contracted, being engageable with the tubing string; means for contracting said lower packer onto the tubing string; an upper packer connected to the upper end of said tubular housing means; supporting means extending downwardly through said upper packer into said elongated chamber and engageable by said upper packer and having at its lower end attachment means connectible to the tubing string, that portion of said supporting means which is within said elongated chamber being smaller than and out of engagement with the periphery of said elongated chamber throughout the entire length of said elongated chamber so that the pressure within said elongated chamber is uniform from one end thereof to the other, whereby said supporting means and the tubing string are hydraulically balanced in the vertical direction, except for the cross sectional area of said supporting means extending upwardly through said upper packer and exposed to atmospheric pressure; means for contracting said upper packer onto said supporting means; and slip means below and connected to said lower packer, said slip means being engageable with the tubing string and being directly connectible to the top of the well, and said slip means having oppositely oriented slips respectively adapted to prevent upward and downward movement of the tubing string.

6. In combination: tubular housing means providing an elongated chamber and including coupling means for opening said elongated chamber; a contractible lower packer connected to the lower end of said tubular housing means; means for contracting said lower packer; an upper packer connected to the upper end of said tubular housing means; and supporting means extending downwardly through said upper packer into said elongated chamber and engageable by said upper packer and having attachment means at its lower end, that portion of said supporting means which is within said elongated chamher being smaller than and out of engagement with the periphery of said elongated chamber throughout the entire length of said elongated chamber so that the pressure within said elongated chamber is uniform from one end thereof to the other, whereby said supporting means is hydraulically balanced in the vertical direction, except for the cross sectional area of said supporting means extending upwardly through said upper packer and exposed to atmospheric pressure.

7. In combination: tubular housing means providing an elongated chamber and including coupling means at its lower end for opening said elongated chamber; a contractible lower packer connected to the lower end of said tubular housing means; means for contracting said lower packer; a contractible upper packer connected to the upper end of said tubular housing means; supporting means including a polished rod extending downwardly through said upper packer into said elongated chamber and engageable by said packer and having attachment means at its lower end, said supporting means being smaller than and out of engagement with the periphery of said elongated chamber throughout the entire length of said elongated chamber so that the pressure Within said elongated chamber is uniform from one end thereof to the other, whereby said supporting means is hydraulically balanced in the vertical direction, except for the cross sectional area of said polished rod extending upwardly through said upper packer and exposed to atmospheric pressure; and means for contracting said upper packer onto said polished rod.

8. A method of running equipment which varies in weight into or out of a well under pressure, characterized by the use of a supporting means for the equipment, and including the steps of: enclosing a portion of the supporting means and at least a portion of the equipment in an elongated upright chamber which communicates with the well; sealing the upper end of said chamber around said supporting means; raising or lowering the supporting means and the equipment relative to said chamber and the well; coupling or uncoupling a portion of the equipment carried by the supporting means so as to increase or decrease the weight of the equipment carried thereby; and substituting larger-area or smaller-area supporting means to increase or decrease the cross sectional area of said supporting means with increases or decreases in the weight of the equipment supported by said supporting means.

9. A method of running equipment which varies in weight into or out of a well under pressure, characterized by the use of a supporting means for the equipment which includes a polished rod, and including the steps of: enclosing a portion of the polished rod and at least a portion of the equipment in an elongated upright chamber which communicates with the well; sealing the upper end of said chamber around said polished rod; raising or lowering the supporting means and the equipment relative to said chamber and the well; coupling or uncoupling a portion of the equipment carried by the supporting means so as to increase or decrease the weight of the equipment carried thereby; and substituting larger or smaller polished rods for the polished rod first mentioned as the weight of the equipment increases or decreases.

10. A method of running equipment which varies in weight into or out of a well under pressure, characterized by the use of a supporting means for the equipment having a net upwardly-facing area exposed to atmospheric pressure, and characterized in that the supporting means and the equipment collectively have a net downwardlyfacing area equal to said upwardly-facing area and exposed to the well pressure, said method including the steps of: lowering the equipment into or raising it out of the well on the supporting means and simultaneously respectively coupling or uncoupling a portion of the equipment carried by the supporting means so as to increase or decrease the Weight of the equipment carried by the supporting means; and substituting larger-area or smaller-area supporting means so as to increase or decrease said net upwardly-facing and downwardly-facing areas with increases or decreases, respectively, in the weight of the equipment supported by the supporting means.

References Cited in the file of this patentUNITED STATES PATENTS 1, 852,7 l7

UNITED STATES PATENT OFFICE CERTIFICATE OF CORRECTION Patent No. 3,100,015 August 6 1963 John Regan It is hereby certified that error appears in the above numbered petent requiring correction and that the said Letters Patent should read as corrected below.

Column 9, line 17, before "packer" insert upper Signed and sealed this 3rd day of March 1964.

(SEAL) Attest:

ERNEST W. SWIDER EDWIN Lo REYNOLDS Attesting Officer AC ti ng Commissioner of Patents

Claims (1)

1. 8. A METHOD OF RUNNING EQUIPMENT WHICH VARIES IN WEIGHT INTO OR OUT OF A WELL UNDER PRESSURE, CHARACTERIZED BY THE USE OF A SUPPORTING MEANS FOR THE EQUIPMENT, AND INCLUDING THE STEPS OF: ENCLOSING A PORTION OF THE SUPPORTING MEANS AND AT LEAST A PORTION OF THE EQUIPMENT IN AN ELONGATED UPRIGHT CHAMBER WHICH COMMUNICATES WITH THE WELL; SEALING THE UPPER END OF SAID CHAMBER AROUND SAID SUPPORTING MEANS; RAISING OR LOWERING THE SUPPORTING MEANS AND THE EQUIPMENT RELATIVE TO SAID CHAMBER AND

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