Patent Publication Number: US-5020597-A

Title: Arrangement and method for conducting substance and lock therefor

Description:
CROSS-REFERENCE TO RELATED APPLICATIONS 
     The present patent application relates to co-pending application Ser. No. 07/348,221 filed May 9, 1989 for &#34;Cementing Method and Arrangement&#34;, a continuation of applicant&#39;s prior co-pending application Ser. No. 07/147,701 filed Dec. 4, 1987; now abandoned and co-pending application Ser. No. 07/471,291 filed Feb. 1, 1990 for &#34;Arrangement and Method for Conducting Substance and Seal Therefor&#34;. 
     STATEMENT OF THE PRIOR ART 
     In cementing liners in a well bore, attempts have been made to employ upper and lower wipers secured to the operating string by shear means. Lower and upper plugs with resilient ribs are positioned in front of and behind the cement as it is discharged into and through an operating string. The plugs isolate the cement therebetween and wipe the operating string as it is conducted therethrough. It is desired to seat the lower plug in the lower wiper and release the plug and wiper from the operating string to move through and wipe the liner, and thereafter seat the upper plug in the upper wiper and then release the upper wiper and its plug from the operating string to move through the liner. Various structures have been used to try to assure release, and in the proper sequence, of the lower and upper wipers and their plugs from the operating string and to try to overcome other problems associated with dual or tandem plug wiper arrangements. 
     Substantial difficulty has been heretofore encountered in tandem plug arrangements because of the difficulty in assuring proper sequential release of the first or the lower wiper and its associated and plug and then the upper wiper and its associated plug to seal ahead of and behind a substance such as cement that is being conducted through an operating string to be discharged into a well bore. 
     By way of example only, in cementing operations in a well bore wherein a liner is secured to a casing and depends downwardly therefrom, the weight of the liner may cause premature shearing of the shear pins that secure the wipers to the operating string prior to the time that the cement is discharged into the operating string at the earth&#39;s surface causing malfunction of the system. 
     After the liner is hung or secured on the casing, it is generally common practice to rotate the operating string to release it from the liner before cementing operations are begun. It is common practice to pick up on the operating string after the liner is hung and released from the operating string, to assure that the liner has actually been released from the operating string. Release of the operating string from the liner is indicated by a change in weight on the operating string as reflected on the weight indicator at the earth&#39;s surface. If a hydraulic hanger is employed to hang or secure the liner to the casing, release of the liner from the operating string is indicated by a change on the pump pressure gauge at the earth&#39;s surface. 
     During either the rotation of the hanger to release when a mechanical hanger is employed, or the lifting of the operating string to verify release of the hanger where either a mechanical or hydraulic hanger is employed, the shear pin or shear pins securing the upper and lower wiper means may be sheared prematurely, causing problems if not malfunction of the cementing operation. 
     The operating string and connected wipers may be rotated or reciprocated in the well bore after release from the liner, and this may cause premature release of one or both wipers from the operating string. 
     Prior art tandem plug arrangements, so far as known to applicants rely upon shear pins to releasably secure the upper and lower wipers to the operating string. 
     So far as known to applicants, in dual or tandem plug and wiper arrangements that are connected to an operating string there is presently, no seal arrangement to assure that fluid in the operating string is confined to prevent the fluid from leaking out of the operating string to a surrounding tubular member or to the well bore adjacent where the first and second, or lower and upper wiper means are connected to the operating string. Thus fluid pressure in the operating string is effective, or is communicated to act on the outwardly extending, annular seals or ribs of the first or lower liner wiper means which sealingly engage with a surrounding tubular member such as the liner. In some instances, the cross-sectional area of the seals on the lower wiper means within the liner which is responsive to the fluid pressure from the operating string requires that the shear pins in present dual or tandem plug and wiper arrangements be strong enough to prevent premature release of the first or lower liner wiper means and its plug from the operating string. In attempting to prevent premature wiper release, by increasing the strength of the shear pin creates, in some instances, additional problems in that the shear pin strength may approach the tensile strength of the operating string which could be undesirable. 
     Additionally, no other prior art tandem plug arrangements known to applicants provide a construction wherein a closed hydraulic or fluid pressure system is provided to assure that the fluid pressure in the operating string is prevented from acting on the upper or lower wiper seals in any manner which may cause malfunction. 
     The increase in the effective cross-sectional area on the annular external wiper seals which is responsive to the pressure in the operating string is such that the resulting force necessary to shear the lower wiper free from the operating string may not always be restrained by the outwardly annular seals of the wiper means and such force may, in some instances, fold the seals back upon themselves which permits the pressure to by-pass the seals and cause a malfunction in the release of the wiper from the operating string. 
     Generally speaking the lower or first wiper is secured to the operating string, as is the upper or second wiper means in proposed prior art dual, or tandem plug arrangements and the lower wiper means is supported within the bore of the upper wiper means. Where the operating string and the tandem plug arrangements supported thereon are rotated or reciprocated before or during the cementing operations prior to release of the respective wiper and plug means therefrom, sediment or other foreign substance in the well bore may be collected on the seals of the wipers, or otherwise effect premature release of the first or lower wiper means so as to cause improper functioning of the tandem plug arrangement. To overcome this problem, it is suggested in U.S. Pat. No. 4,836,279 issued on Jun. 6, 1989 that the lower and upper plugs be interlocked to prevent relative rotation therebetween. However, this could be disadvantageous when the upper wiper means is in turn releasably supported on the operating string by shear pins so that if contaminants in the fluid in the well bore should interfere with rotation of the operating string and the plug, then the upper wiper means may, in some circumstances be prematurely released. 
     Various substances may be introduced into a well bore either in oil or gas operations or in other operations such as mining operations wherein fluid is conducted into subterranean formations for recovery of minerals therefrom or for treating selected areas of the cavity or well bore in which the operations are conducted. Heretofore, so far as known to applicants, no satisfactory arrangement has been provided for assuring that the substance conducted into the well bore through an operating string will be isolated or maintained within the operating string or prevented from communicating with the well bore or surrounding tubular member so that the substance is discharged only at the location in the subterranean formation as desired. If the substance conducted through the operating string is such that it presents ecological or environmental problems to formations in the earth, it may be extremely desirable to retain such substance confined to avoid polluting or otherwise adversely affecting other geological formations through which the well bore extends. 
     Other problems have arisen in connection with conducting a substance, by way of example only, such as cement into a well bore. 
     Where a tubular member forms an extension of a sheath in an opening, such as for example, an extension of the casing, normally termed a liner, which is secured to the casing in a well bore and extending therefrom, it is generally accepted practice to seal around the liner in the opening or well bore and adjacent the lower end of the sheath or casing with cement or any other suitable substance. 
     It is preferably that in such cementing operations the cement which is provided to the cementing region in the opening, or well bore be isolated as it is conducted through the opening or well bore to the cementing region to avoid contamination by other fluids in the opening or well bore to obtain a uniform consistency of cement and hence a better cement protective sheath in the cementing region. 
     To accomplish such isolation, various plug and wiper arrangements have been proposed and used such as shown in various patents; however, it is believed that possible malfunction of the above present state of the art, as known to applicants, could cause problems in cementing operations. 
     If the plug and wiper means do not operate in proper sequence to isolate both ahead of and behind the cement as it is conducted through the operating string into the opening or well bore, contamination may occur. Also, premature release between the wiper means and its respective engaged plug means as they move through the operating string and the liner to discharge the cement from the liner for cementing the liner in the well bore may cause contamination of the cement. The seals associated with the wiper means may not properly contact the operating string or the liner so as to possibly permit by-pass of cement therearound. Contact of the seal means of the wiper means with either the operating string or liner in an improper manner so as to create a substantial back pressure may adversely affect the cementing operation by effecting premature release between the wiper means and its respective plug means, or other possible problems. 
     To isolate the cement as it is conducted through an operating string to the cementing region, it is customary to releasably support two spaced plug means with seal means thereon at the earth&#39;s surface for release into the operating string for sealing ahead of and behind the cement as it is pump down the operating string. It is intended that the spaced plug means sequentially and independently engage spaced wiper means releasably on the operating string so that the wiper means may be sequentially and indpendently released from the operating string without effecting release prematurely of the other liner wiper means from the operating string. The spaced liner wiper means and their respective engaged plug means seal ahead of and behind the cement as it is pumped, and discharges, into and through the liner into the cementing region. 
     Some of the prior art have reduced diameters in the bore of the second, or upper liner wiper means for receiving the second plug means therein after the first plug and liner wiper means hopefully have been successfully engaged together and released from the operating string by fluid pressure in the operating string. The first, or lower liner wiper means, of some prior art devices has an extension extending up into the bore of the second or upper liner wiper means and is releasably secured in such bore above the smaller internal diameter seat formed therein for receiving the second plug means. The extension of the first liner wiper means must clear the smaller diameter shoulder in the bore of the upper liner wiper for the lower liner wiper means to successfully and independently release. 
     Other prior art has collets on the extension of the first wiper means which extend into the bore of the upper wiper means and the extension is secured above the smaller diameter seal contact or engage the reduced diameter on the second wiper means after release of the lower wiper means. The collets are supposed to collapse inwardly, by such contact with the seat in the bore of the upper wiper means to enable the extension to move past and out of the bore of the upper wiper means. 
     Contaminants in the fluid in the operating string ahead of the cement or other factors may prevent unrestricted movement of the first wiper means extension through such smaller diameter portions in the second wiper means, thus possibly causing premature release of the second liner wiper means at the time as the first or lower liner wiper means is attempting to release from the operating string and the second, or upper wiper means or causing the first wiper and its plug to hang up in the second wiper. 
     In the prior art, so far as known to applicants, the first or lower liner wiper means is releasably secured with the first plug engaged therewith but there is no arrangement to lock them in such relationship until they reach a predetermined location in the liner. Thus, a malfunction, such as increased pressure in the operating string may prematurely release the first plug from the first or lower liner wiper means prematurely which is undesirable. Also, such arrangement does not provide a safety back pressure means in addition to the set shoe or a float collar that may be normally provided in a liner cementing operation. 
     Some of the prior art shows a lower wiper means which extends through the upper wiper means to enable it to be releasably secured by shear pins above the lower end of the upper wiper means and above the seal means on the upper liner wiper plug. 
     Some prior art provides external catching means to hopefully catch the upper plug means so it may sealably engage with the upper liner wiper means for release with the upper liner wiper means by pressure in the operating string thereabove. However, such device must function in the hostile environment in the well bore which may be several miles deep in the earth and there is no assurance that the device will function safely and properly in such hostile environment. 
     SUMMARY OF THE INVENTION 
     The present invention provides an arrangement to lock upper and lower wiper means to an operating string so that they can not be released from the operating string by mechanical force. Also the arrangement assures that the lower wiper means will be released before the upper wiper means can be released from the operating string. The invention also provides seals in a tandem wiper and plug arrangement supported on an operating string to confine the fluid in the operating string and wipers supported on the operating string to prevent communication of fluid from the operating string to the external seals on the upper and lower wipers to prevent malfunction in release of the wipers. The effective cross-sectional area responsive to the fluid pressure to release the lower or first wiper means from the operating string is approximately the cross-sectional area of the operating string rather than the cross-sectional area at the outer diameter of external annular seals on the wiper. In the tandem plug arrangement of the present invention, the lower or first wiper means and the upper or second wiper means is interconnected, or secured, to the operating string to accommodate relative rotation between the wipers. The interconnection also prevents premature release of either wiper means upon rotation and/or reciprocation of the operating string in the well bore prior to or during cementing operations. 
     An object of the present invention is to provide an arrangement to lock the upper and lower wiper means to the operating string and prevent release of the upper and lower wiper means from the operating string by mechanical force during manipulation of the operating string. 
     Another object of the present invention is to provide an arrangement for locking upper and lower wiper means to an operating string, which locking means is responsive solely to pressure present in the operating string to sequentially first release the lower wiper means from the operating string and only thereafter release the upper wiper means from the operating string. 
     Yet a further object of the present invention is to provide an arrangement for releasably securing upper and lower wiper means to an operating string and lock means to lock the releasable securing means against premature actuation by mechanical force during manipulation of the operating string. 
     Still another object of the present invention is to provide an arrangement to prevent premature release of upper and lower wiper means from an operating string and to assure that the upper and lower wiper means are released in a predetermined sequence. 
     A further object of the present invention is to provide a tandem plug arrangement with a means of mechanical isolation or a mechanical barrier ahead of and behind a substance as it is conducted through operating string and a well bore to assure that the substance is isolated and released from the operating string to the well bore in a desired manner. 
     Yet a further object of the present invention is to provide seals between an operating string and supported wiper means thereon so as to confine the fluid pressure for releasing the wiper means from the operating string in a desired manner. 
     Yet a further object of the present invention is to connect the operating string with dual wiper means in a manner to inhibit premature release of the wiper means from the operating string. 
     Still another object of the present invention is to provide seals in a dual wiper means arrangement, supported on an operating string so as to reduce the effective cross-sectional area responsive to fluid pressure in the operating string for release of the wiper means from the operating string to assist in assuring proper functioning and release of the wiper means from the operating string in a desired manner. 
     Still another object of the present invention is to provide an arrangement for assuring that a substance conducted through an operating string into a well bore is confined to be released therefrom at a selected or desired manner. 
     The present invention provides a construction wherein the operating string extends through the second or upper wiper means and terminates in overlapping relation with the first, or lower wiper means for releasably securing with the first or lower wiper means. This provides a construction wherein the lower wiper means is secured below the smallest internal diameter that may be present in the upper wiper means to assist in preventing premature release of the upper means. It also enables the longitudinal bore of the lower wiper means to originate and extend away from adjacent the lower end of the upper wiper means rather than providing an extension with a bore that extends up into the upper wiper means, thus inhibiting premature release of the upper wiper means when the lower wiper means is released from the operating string. It further provides an arrangement wherein an initial movable seal is formed with only the operating string when the upper plug is engaged with the upper wiper means rather than the bore of the upper wiper means. It contemplates a construction wherein the upper wiper means is provided with a portion extending through the operating string and into the bore thereof which provides a seat for engaging the upper plug means with the upper wiper means, but the lower wiper means is secured below such restriction to avoid hanging upon the seat and causing premature actuation of the upper wiper means. It further provides a means for releasably securing the first or lower wiper means to the operating string adjacent the lower end of the second, or upper wiper means and below the second or upper wiper means to assist in proper and independent release sequencing of the engaged lower wiper means and its plug as well as the upper wiper means and its plug. 
     Another object of the present invention is to provide means for locking the lower wiper means with its plug means as they sealably move through the liner to a predetermined position to prevent premature release of the lower wiper means from its plug and premature release of the cement therebehind until the wiper means is seated at the predetermined position. Such construction also provides an additional backpressure safety valve to prevent reverse flow into the liner in addition to the set shoe normally associated with the liner. 
     Yet a further object of the present invention is to provide an arrangement for locking or latching a lower wiper means and its plug in position in the liner so that the upper wiper means and its plug may be locked or latched thereto after they have performed their function to assist in milling or drilling the wiper means and plug means out of the liner at the completion of the cementing operation. 
     The present invention provides a method for cementing the liner wherein seal means seal between the liner and operating string and the liner can be positioned for supporting or hanging on the casing. Plug means with seal means thereon assures proper sequencing to seal with the operating string ahead of and behind the cement and engaging with the corresponding wiper means to effect release of the wiper means from the operating string and each plug and its wiper means jointly form a movable seal as they sealably move ahead of and behind the cement as the cement or sealing fluid moves through the liner to the cementing region. The liner support means includes means for hydraulic or mechanical actuation and may include one or more liner hangers and where multiple hangers are used, means are employed for simultaneously setting all of them to distribute the load of the liner thereamong. The support means also includes means for rotating or reciprocating the liner before setting, and rotating after setting the liner in the well bore casing. 
     Another object is to provide a mechanical barrier or isolation ahead of and behind a substance for discharge to a desired location in a well bore and an arrangement to lock the barriers to a well bore operating string against release except in a specific sequential manner. 
     Other objects and advantages of the present invention will become readily apparent from a consideration of the following drawings and description. 
    
    
     BRIEF DESCRIPTION OF THE DRAWINGS 
     FIGS. 1-5 inclusive are schematic illustrations of an operating string releasably and sealably secured with a liner in a well bore casing and demonstrates the sequential actuation of the separate plug and wiper means for isolating cement, or a substance as it is conducted through the operating string and liner to a selected region in a well bore and sealing off the lower end of the liner against backflow from the well bore; 
     FIG. 6 is a longitudinal sectional view partly in elevation of the upper portion of a tool illustrating a form of the component relationships of the present invention with seal means between the liner and the operating string with which it is secured as well as the seals between the upper wiper means and operating string and between the upper and lower wiper means releasably secured with the operating string to isolate the bore of the operating string from the well bore, or tubular member surrounding the operating string. The lower and upper wiper means are shown as being connected to the operating string by releasable means and lock means which secure the release means against actuation by mechanical force; 
     FIG. 7 is a sectional view partly in elevation illustrating the first pump-down plug means sealably engaged and locked with the first or lower liner wiper means prior to release of the engaged first plug and wiper means from the operating string. 
     FIG. 8 is a sectional view to show in greater detail the sealing and locking relationship between the first or lower plug means and first or lower liner wiper means and the sealing relationship with the liner, as well as showing the relationship of the first, or lower liner wiper means to the lower end of the second or upper wiper means immediately after the first wiper means is released from the operating string; 
     FIG. 9 is a partial sectional view illustrating in greater detail the catcher means for receiving and latching with the first wiper means with the plug and wiper lock means unlocked and actuated which enables the first plug means to release from the first wiper means for movement longitudinally thereof to accommodate communication from the liner above the first wiper means and plug means to the desired well bore region; 
     FIG. 10 is an enlarged sectional view partly in elevation demonstrating the first plug means after release from the lower wiper means and adjacent the lower end of the lower liner wiper body bore and with communication opened to the liner for discharge of the cement, or substance, from above the first wiper means; 
     FIG. 11 is a sectional view partly in elevation illustrating the second plug means in sealing relationship with the operating string and seated, and engaged with the second or upper liner wiper means; 
     FIG. 12 is a sectional view partly in elevation illustrating the lower end of the operating string after the second or upper liner wiper means with its plug means in the bore thereof has been released from the operating string and further demonstrating the second or upper liner wiper means and second plug means engaged or latched with the first or lower wiper means in the catcher means to retain them as a unit; 
     FIG. 13 is an enlarged partial sectional view of the second plug means latched with the second liner wiper means and showing the details for latching the first and second wiper means together; 
     FIG. 14A is a sectional view on the line 14A--14A of FIG. 7 illustrating further structural details of a form of the present invention; 
     FIG. 14B is a sectional view on the line 14B--14B of FIG. 7 illustrating further structural details of a form of the present invention; 
     FIG. 15 is an exploded view illustrating in greater detail the lower end of the operating string and details of the upper and lower wiper means; 
     FIG. 16A is an enlarged sectional view showing in greater detail the releasable means connecting the upper and lower wipers to the operating string and the releasable lock between the upper and lower wiper means and the operating string; 
     FIG. 16B illustrates alternative arrangement of the releasable means and lock means for the first or lower wiper means and the second or upper wiper means; 
     FIG. 17 is a sectional view, partly in elevation, illustrating another arrangement of the upper end of FIG. 6 and illustrating a form for use where it is desired to rotate and/or reciprocate the liner where the plug and wiper means of FIGS. 1-16 are employed in cementing operations; 
     FIG. 18 is a sectional view, partly in elevation, and is a continuation of FIG. 17 showing part of the positioning means for the liner where multiple, longitudinally spaced liner hangers are hydraulically, simultaneously set with bearing means for liner rotation relative to the set hangers; 
     FIG. 19 is a sectional view partly in elevation and is a continuation of the lower end of FIG. 18 and illustrates the catcher means in the liner as well as means to restrict the flow for actuation of the hanger means hydraulically along with bearing means to accommodate rotation of the liner; and 
     FIG. 20 is similar to FIG. 18 but shows a mechanical arrangement for simultaneously actuating multiple hangers to hang or set the liner on the casing in the well bore for rotating the liner relative to the set hangers. 
    
    
     DESCRIPTION OF THE PREFERRED EMBODIMENTS 
     The present invention will be described in detail in connection with its use for cementing a liner in a well bore wherein cement is conducted through the operating string OS to be discharged therefrom and through the lower end of a liner into the well bore surrounding the liner. 
     However, it should be understood that such description is for purposes of illustration only and that the present invention may be employed in any situation where it is desired to conduct a substance through an operating string into a cavity or well bore in the earth&#39;s surface and for discharging the substance from the operating string into the well bore. The present invention provides a mechanical barrier to isolate the substance as it is conducted through the operating string and liner to inhibit contact between such substance and other well fluids while such substance is being conducted through said operating string and liner to the location where it is desired to discharge the substance into the well bore. The present invention also controls the release of suitable seal means that is conducted through the well bore to assist in isolating the substance as it is conducted through the well bore and to assure that the seals function in a desired manner to accomplish the intended results. 
     Attention is first directed to FIGS. 1-5 inclusive of the drawings wherein a well bore annulus is represented by the letters WB having a casing C therein terminating as represented at E in the well bore WB. An operating string such as a drill string or tubing string extends from the earth&#39;s surface and is represented by the letters OS and has a portion which may be referred to as a tail pipe 25 which extends through the seal means S and seals between the operating string OS and the liner L and the releasable means R which releasably secure the operating string OS and the liner L together for lowering into the well bore WB and for conducting operations to position the liner L therein as will be explained. 
     A first wiper means, or lower liner wiper means is schematically illustrated in FIGS. 1-5 at 26 and a first or lower pump down plug means is schematically illustrated in FIG. 1 at 35 as sealably engaged within the bore 28a of body 28 of the first wiper means 26. External seals or wipers 29 are mounted on body 28 and extend outwardly therefrom. The first pump down plug means includes a solid or closed body schematically represented at 36 with annular seals or resilient wipers 37 spaced longitudinally therealong and extending outwardly or projecting therefrom as shown for sealably engaging with the bore 21 of the operating string OS to form a movable seal, or barrier, in the operating string OS ahead of the cement, or substance, and any cleaning, conditioning or spacer fluids that may precede the cement for conditioning of the well bore prior to discharge of the cement, or substance, into the region to receive the substance or cement. The first wiper means 26 and first plug means 35 when sealably engaged together as illustrated in FIG. 7 are responsive to pressure in the operating string OS and release the wiper means 26 from the operating string to form a movable mechanical barrier or seal means for moving ahead of the cement, or substance, as they more through the liner L. Thus, such arrangement enables the plug means to first wipe the bore of the operating string OS ahead of the cement, displacing any fluid which precedes it, and then after the first wiper means 26 has been released from the operating string OS, as will be described, it and the first plug means move through the liner L and form a movable mechanical barrier or seal with the bore wall of the liner which enables the liner wall to be also wiped prior to discharge of the fluid and cement thereinto and therethrough. 
     Second or upper wiper means is schematically illustrated in FIGS. 1-5 at 45 with resilient means 46b&#39; mounted on body 46&#39; of the upper wiper 45. The second wiper means is also releasably secured with the operating string OS. As shown in FIG. 4 a second or upper cement plug schematically represented at 50 includes a plug body 51 and external seal or wiper means 52 on body 51 of similar configuration or of suitable configuration generally similar to that described with regard to plug means 35 to seal with the bore of the operating string OS behind the cement or substance represented at 24. When the second or upper plug means 50 sealably engages in the second or upper liner wiper means 45 as illustrated in FIG. 4, they may then be released together from the operating string OS by the pressure therein to form a movable seal in the liner L behind or above the cement. It can be appreciated as the second plug means 50 moves through the operating string to seat in the upper wiper means 45, it will wipe the bore of the operating string OS and in turn it and the upper wiper means form a movable seal to wipe the interior wall of the liner L as they move therethrough. 
     The upper wiper means 45 and engaged second or upper plug means 50 form a movable seal or barrier behind or above the cement or substance represented at 24 to separate it from the fluid represented at 24a in FIGS. 4 and 5 in the operating string OS and liner L behind the engaged second wiper means 45 and plug means 50. In a similar fashion the first plug means 35 and wiper means 26 separate the cement or substance 24 therebehind from the fluid portion 24b in the well bore WB and in the liner below the first plug means 35 and first wiper means 26 as illustrated in FIGS. 1-3. 
     It will be noted that as the cement, or any substance, is pumped down the operating string OS, any fluid ahead of first plug means 35 in the operating string will be discharged into the well bore annulus WB ahead of the discharge of the cement, or substance. As noted previously, cleaning or other well bore conditioning or spacer fluid may precede the cement, or substance, immediately ahead of the first plug means 35 and the first wiper means 26 when they are engaged and released for movement. 
     The first plug means 35 and first wiper means 26 may move downwardly and latch with the catcher means 55 before or after release of the second wiper means 45 and the second plug means engaged therewith from the operating string, depending upon the volume of cement, or substance between the spaced movable seals that is to be discharged to the well bore annulus WB. 
     It will be noted that the liner L is normally provided with a one-way acting valve means represented generally at 40 adjacent its lower end to prevent backflow from the well bore annulus WB. As illustrated schematically in FIG. 3 lock means 60 associated with the first liner wiper means 26 and first plug means 35 has been actuated to release plug means 35 from the first wiper means 26 for communication through the ports P in the extension 27 of the first liner wiper means 26 below catcher means 55 to enable the cement, or substance, behind the first plug means 35 and engaged wiper means 26 to communicate through the liner L and out the back pressure valve 40 into the well bore annulus WB. 
     As schematically illustrated in FIG. 5 after movement of both the first wiper means 26 and its plug means 35 and second wiper means 45 and its plug means 50 through the liner, the upper plug means 50 sealably engages and latches with both the second wiper means and the first wiper means that has been previously latched and sealed in the catcher means 55. This forms a back-up one-way acting valve to prevent reverse flow from the well bore adjacent the liner L into the liner. Such arrangement also facilitates drilling or milling the first and second wiper means to remove them from the interior of the liner L after the cementing operation is completed. 
     The positioning means includes hanger means represented generally by the letter H as well as other components that will be described which enables the liner L to be positioned and suspended or hung on the casing C as schematically represented at FIGS. 1-5. 
     The seal means S may be of the conventional drillable or swab cup type packer form or may assume the retrievable from illustrated in FIG. 6 wherein body means 70 are provided with seal means 46 for engaging the interior of the liner and the exterior of the operating string for sealing therebetween. 
     Cooperating surface means on the liner in the form of an annular recess of profile 71, the annular surface 74 on the operating string and the exterior annular surfaces 70a, 74a on the movable members or projecting lugs 73a mounted in circumferentially spaced windows of the body 70 cooperate to engage and lock the body means 70 to the liner to maintain a seal between the liner and the operating string OS while accommodating movement of the operating string relative thereto. A pin 76 in enlarged passageway 75 in lugs 73a retain lugs in windows of the body 70 while accommodating lateral movement of the lugs laterally of the body 70. 
     Means to unlock the cooperating surface means are provided in the form of the smaller annular diameter portion 77 on the operating string which, upon further relative longitudinal movement between the operating string and body means 70 align the small diameter portion 77 on the operating string with the projection or lugs 73a to accommodate their retraction from the recess 71 so that the seal means S may be retrieved from the well bore WB along with the operating string OS. 
     It will be noted that the operating string OS extends through the bore 47 of the second or upper wiper means 45 and terminates in overlapping relation as represented at 80 in relation to the body 28 of first or lower wiper means 26 as more clearly seen in FIG. 6. 
     Also, the second or upper wiper means 45 includes a tubular body referred to at 46&#39; on which are disposed a plurality of flared or projecting and longitudinally spaced resilient means 46b&#39; for wiping the interior of the liner or tubular member. The operating string OS extends through the longitudinal bore 47 of the second wiper means 45 as previously stated and enables the first wiper means 26 to be releasably and sealably positioned relative to the upper wiper means 45 and to the operating string OS in a manner to avoid premature release thereof or of the second wiper means 45 when the first wiper means 26 is independently first actuated to release from the operating string and then move, along with its engaged plug means 35 through the liner as described heretofore in connection with FIGS. 1-5. 
     Flared and longitudinally spaced seal means 29 are provided on body 28 of lower wiper means 26 for sealably engaging with the interior of the liner. The wiper means 26 includes a bore 28a therethrough in which seat 95 is provided for receiving the first plug means 35. 
     The first plug means 35 illustrated in greater detail in FIG. 8 includes a solid body 36 on which are mounted flared or projecting and longitudinally spaced annular seals 37 for initially sealably engaging with and wiping the interior of the operating string as it is pumped therethrough to seat within the first wiper means 26 as shown in FIG. 8 whereupon the seal 217 on the plug body 36 forms a seal with the bore 28a extending through the first wiper means 26, and seal 95&#39; seals between bore 28a and seat 95. 
     As better seen in FIG. 11, the second or upper pump down plug means 50 also includes a solid body portion 51 on which are mounted flared and longitudinally spaced seal means 52 which initially seal with the operating string OS as it is pumped through the bore thereof and thereafter seals with the portion of the operating string which extends into the bore 47 of the second wiper means 45. As shown in greater detail in FIG. 11 when the plug means 50 is engaged on seat 46f forming part of the second wiper means 45 within the bore 21 of the operating string OS seals 210, 218 sealably engage the plug 50 and wiper 45 together. 
     As shown in the drawings the second or upper wiper means 45 is provided with seals 45a, 45b adjacent its upper end. Seals 45c, 45d are provided on member 199 of upper wiper means 45. Seals 231, 232 are provided on piston 230. These seals along with seal 95&#39;, 210, the seals 217, 218 on the lower and upper plug means, and seals on the member 199 and piston 230 provide seal arrangements to prevent communication from the bore 21 of the operating string to externally of the operating string when respective lower plug 35 and wiper 26 are sealingly engaged and when upper plug 50 and wiper 45 are sealingly engaged and assist in assuring that the lower plug and wiper will be released from the operating string prior to release of the upper wiper and its plug as will be provided in greater detail hereinafter. 
     More specifically, seal 210 provides a seal between the upper wiper means and the bore of the operating string. The seals 45a, 45b along with seal 45c provide a seal between the upper wiper means and the operating string to prevent communication between the bore 21 of the operating string and externally of the upper wiper means. The seals 45c, 45d, 231, 232 prevent communication between the bore 21 of the operating string and externally of the lower wiper means. 
     The outer diameter of the annular seal members 46b&#39; and 29, respectively, on the first and second wiper means and the diameter of annular seals 37 and 52, respectively, on the first and second plug means, are of proper diameters for sealing with the bore of the liner or tubular member and the operating string, respectively. Suitable means, shown in FIGS. 8 and 11 of the drawings at 36d, 54, respectively, are provided on each the lower and upper plugs 35 and 50 for seating and latching each plug in their respective seat 95 and 46f of the lower and upper wiper, respectively. 
     In FIGS. 12 and 15 the lower end portion 22 of the operating string is illustrated and has adjacent its lower end longitudinally extending slots or recesses 90 forming the longitudinally extending, circumferentially spaced projections or fingers 91. 
     The upper end of body 28 of the first or lower wiper means 26 is illustrated on the lower end of exploded view, FIG. 15, and includes the annular end portion 28b and the annular end portion 28b&#39;. The end portion 28b has a reduced external diameter portion which is smaller than the internal diameter of surrounding end portion 28b&#39; to thereby form an annular longitudinally extending chamber 28c in the lower wiper body 28 as shown in the drawings. The end portion 28b&#39; has a bore 28f, see FIG. 6, adjacent its upper end in which the lower end of portion 201 of member 199 is received. 
     When the upper and lower wipers 45, 26, are assembled on the operating string, lower end 46g of upper wiper body is in close proximity to, or abuts, upper end 46h of lower wiper body. Seals 45c and 45d on member 199 along with seals 231, 232 on piston 230 prevent communication of fluid from the operating string bore adjacent wiper means 26 and 45. Body 46&#39; of the upper wiper means 45 includes a lower end cap 46d which has an internal bore 46h&#39; that is larger in diameter than bore 47 in the part of body 46&#39; above end cap 46d. A portion of bore 46h&#39; is provided with threads 204b which threadedly engage with threads 204a on segments 204 to secure member 199 with and as part of upper wiper means 45. 
     The body 200 of member 199 has a longitudinal bore therethrough which has two different external and internal diameters. The larger external diameter portion 201 of body 200 has spaced annular recesses to receive the seals 45d, 45c to assist in closing off communication between the bore 21 of the operating string and the external seals 29, 46b&#39;, respectively, on the lower and upper wiper means as will be described. Annularly extending, circumferentially spaced segments or portions 204 with external threads 204a on the segments are formed on portion 201a of body 200 and provide longitudinal recesses or slots 205 therebetween. The portion 201a of body 200 on which the segments 204 overlap, is of smaller external diameter than the internal diameter of the bore in portion 201, and the bottom of the slots 205 is defined by the shoulder 201c on portion 201. Because of the difference in the internal diameter of the bore in portion 201 and the smaller external diameter of portion 201a, the slots 205 terminate in circumferentially spaced openings 208 in the body at the end of slots 205 which communicate with the overlapped bore of portion 201 of body 200. The bore of body 200 in the portion 201 includes an annular projection 201d which interconnects or interfits in the annular recess 91a formed on the exterior surface of the fingers 91 of the operating string OS, as better shown in FIGS. 6 and 7. 
     The operating string fingers 91 extend through slots 205 and openings 208 in member 199 and into the chamber 28c in lower wiper means 26 and are provided with internal annularly extending, circumferential recesses 91b thereon. The piston 230 has reduced diameter extension 234 with an end recess 234&#39; which overlaps the recesses 91b in fingers 91. The split ring 235 engages on end recess 234&#39; to releasably interconnect the lower wiper and operating string together. Shear means 237 in annular recess 239 of piston 230 aids in locking the operating string, piston and lower and upper wiper together against premature release. Port means 238 in portion 28b&#39; equalizes pressure in the well bore with the portion of chamber 28c below piston 230. 
     When the components illustrated in exploded relation of FIG. 15 are assembled as shown in FIGS. 6 and 7, the smaller diameter portion 201a is inserted and received within the lowermost end of portion 22 of the operating string so that the projections 91 thereof are received within the slots 205 of body 22 and the segments 204 extend through the longitudinal recesses between the fingers 91 to extend outwardly of the operating string OS. The smaller diameter portion 201a projects or extends within and longitudinally of the bore 21 of the operating string and provides the seat 46f to receive and secure with the second plug means 50 when it is pumped down the operating string. 
     Seal 210 provided on portion 201a of upper wiper means 45 seals within the bore 21 of the operating string. The seal 210 may be positioned in any suitable manner to sealingly engage between the portion 201a of body 200 and the bore of the operating string. The seal means 45a, 45b, 45c and 45d are provided to seal between the upper and lower wiper means 45 and the exterior of the operating string. A seal 95&#39; is provided between seat 95 and lower wiper body 28 as shown in FIGS. 6-12. 
     When the first or lower pump down plug 35 is received and sealably seated in the lower wiper means by seal means 217 on the first plug, seals 45a, 45b, 45c, 45d, 95&#39;, 217, 231, 232 close off communication from the bore 21 of the operating string so that fluid pressure in the operating string is confined to act on piston 230 and unlock the releasable means 91b, 235 and 234&#39; for release of the first wiper and its plug from the operating string as will be described in greater detail hereinafter. This is effected without the release of the second wiper and without operating string fluid pressure acting on the wiper seals 29, 52. 
     When the second or upper pump down plug is seated in the upper wiper means, additional seals including seal means 218 on the second plug along with seal means 210 close off communication from the bore 21 of the operating string so that fluid pressure in the operating string above the upper plug means is confined to act and unlock releasable means 91a and 201d for the release of the second wiper and its plug from the operating string as will be described in greater detail hereinafter. 
     In assembly, the upper wiper 45, and its body 200 are threadedly engaged by internal threads 204b and external threads 204a and fingers 91 of the operating string and slots 205 are aligned to position upper wiper 45 on the operating string. The smaller diameter portion 201a of the upper wiper means fits within bore 21 of the operating string. Projection 201d interconnects in recesses 91a in each finger 91 to releasably connect the upper wiper to the operating string. The split ring member 235 is positioned on end recess 234&#39; of extension 234 of piston 230 and the annular groove 239 in the piston is aligned to receive shear pin 237 through lower wiper body 28. Lower wiper means 26 is inserted in the bore of the operating string which telescopes portion 201 of the upper wiper means into the lower wiper bore 28f. 
     When assembled, the second wiper means body 46&#39; includes the member 199 and its integral annular portion 46f adjacent which the projections 91 on operating string OS extend in the recesses 205 of member 199 which extends through the operating string to position portion 46f internally of the bore 21 of the operating string OS. 
     As shown in FIG. 13, and as noted, a buttress thread arrangement 46n is formed on the internal bore of seat 46f for latching with the buttress threads 53 formed on the outer circumference of the ring 54 on plug means body 51. The ring 54 has a longitudinal groove therethrough to accommodate flexing thereof on its tapered seat 54&#39; on body 51 as such ring moves into latching relationship with seat 46f. 
     It can be appreciated that the foregoing structural relationship of the operating string OS to the upper or second wiper means 45 and lower or first wiper means 26 is such that the operating string extends through the longitudinal bore 47 of second wiper means 45 and terminates in overlapping relation with the lower wiper means 26. 
     Also the portion 201a of the second or upper wiper means 45 which extends through the slots 91 of the operating string and into the bore 21 thereof receives second plug body 51 in seat 46f for release and movement of said second plug means 50 and second wiper means 45 together through the liner as will be described. The internal bore of the portion 46f which is within the operating string OS is configurated in any suitable manner to engage and latch with the second plug means 50. 
     The recesses 91a and 91b receive, respectively, projection 201d and projection or member 235 on the upper and lower wiper means, respectively, to releasably interconnect the upper and lower wipers to the operating string. The annularly extending recesses or grooves 91a and 91b with their respective interfitting projections 201d, 235 along with groove 239 on piston 230 which receives shear pin 237 accommodate relative rotation between the upper and lower wiper means 45 and 26. 
     When assembled, piston 230 and shear pin 237 and the interconnecting arrangement provides a lock means to lock the releasable groove and projection arrangement on the upper and lower wiper means and the operating string together and prevents release of either of the wipers from the operating string by manipulation of the operating string. The piston 230 reacts only to pressure, such as hydraulic pressure from the operating string bore and hence the lower wiper must be released from the operating string first before the upper wiper can be released. This assures proper sequential operation of the wipers and prevents malfunction as may occur with prior art devices. 
     Further, since the interconnection between the upper and lower wipers and the operating string accommodates relative rotational movement between the wipers while preventing relative longitudinal movement between the operating string and wipers when assembled as shown in FIGS. 6 and 7, the operating string can be manipulated to accomplish desired results without causing the system to malfunction or effect premature release of one or both wipers. 
     The separate seal or wiping elements provided on each the first and second wiper means and the first and second plug means can be of any suitable form and figuration and as illustrated are a plurality of separate wiper or seal means which are retained on the respective body means of the wiper and plug means by any form of retainer means as illustrated in the drawings. 
     From the foregoing it can be seen that after the first plug 35 latches with the first wiper means 26, seals 45a, 45b, 45c, 45d and 217 confine pressure from the operating string bore 21 to act on piston seals 231, 232 and move it longitudinally to shear pin 237. This removes piston extension 234 from beneath split ring 235 so that it contracts on the body 28 as shown. This enables the first wiper means and its engaged plug means to release from the operating string OS as shown in FIG. 8. The collar 102 abuts the outer ends of the retainer pins 99 to lock ring 98 in the relationship shown in FIG. 8 and thus secure or lock the first plug means 35 with the first or lower wiper means 26 against premature release as they both move through the liner L ahead of the cement. 
     The first plug means 35 and first wiper means 26 will remain locked together as shown in FIG. 8 as they both move through the liner. The lower split ring 104 on the tapered body 28 of the first wiper means 26, as shown in the drawings, FIGS. 9 and 10, is received at the end of the travel within the liner in the catcher means 55 arranged adjacent the lower portion of liner L. As seen in FIGS. 8 and 9 the catcher means 55 has buttress threads 55a which engage outwardly facing buttress threads 105 on ring 104 and lock the first plug and wiper means together in catcher 55. The seal 28h in first wiper body 28 below split ring 104 seals in the smooth body portion of catcher means 55 as shown in FIGS. 10 and 11. When suitable pressure in the operating string is thereafter applied, the pin 103 is sheared to release plug 35 from wiper 26. 
     The lock means 60 for the first plug 35 and wiper 26 is shown in enlarged detail in FIGS. 8 and 9. The first or lower wiper means 26 is provided with an annular collar or seat 95 releasably locked in its internal bore 28a by ring 98 in groove 100a. Buttress threads 95a are provided on the internal diameter of the collar 95 for latching with the ring 36d carried on the tapered seat of first plug 35. The ring 36d also is split longitudinally to accommodate flexing and is provided with buttress threads 36e for engaging with the buttress threads 95a of the collar 95 in the first wiper means 26. The seat 95 is provided with an annular groove 96 which has a taper 97 at its upper annular side as shown. The split ring 98 is configured to conform with and be received in the groove 96, and its inner, upper annular edge is tapered at 97a to conform with taper 97 on groove 96. The ring 97 is split to accommodate flexure thereof and retainer pins 99 extends through circumferentially spaced radial openings 100 which terminate in the annular groove 100a of body 28 of the first wiper means. The ring 98 is dimensioned to also partially rest in annular groove 100a in which the inner ends of the openings 100 terminate. The retainer pins inner ends therefore abut the outer circumference of ring 98 and the outer end of the retainer pins 99 abut the inner surface 101 of collar 102 when collar 102 is retained in the position shown in FIG. 8 by the shear pin 103 engaging it and body 28. 
     When pressure in the operating string shears pin 103, the collar 102 can then move longitudinally to align groove 106 with the outer ends of the openings 100 in which retainer pins 99 extend. The internal pressure in the operating string will force plug means 35 down, and due to the tapers 97, 97a on the upper groove and ring edge, respectively, the seat 95 of lower wiper means 26 is released from ring 98 and moves down with plug means 35 and expands ring 98 into groove 100a to force pins 99 radially outward in openings 100 into groove 106 of collar 102. This relationship is shown in FIG. 9. This enables the first plug means 35 to unlock from the first wiper means 26 and move into extension 27 beneath port means P therein to open the liner beneath first wiper means 26 for communicating the liner above the first wiper means to discharge cement from the liner L above the first wiper means 26 through one-way valve means 40 to the well bore annulus WB surrounding the liner to initiate cementing the liner in place. The height of the cement in the well bore WB may vary depending on the circumstances. 
     When the second plug 50 moves in the bore 21 of the operating string and engages and latches with seat 46f on the second wiper means, pressure in the operating string may be increased to force fingers 91 to collapse inwardly from pressure of the projection 201d trying to move out of the annular recesses 91a in the fingers 90. When the fingers 91 have been collapsed sufficiently, the second or upper wiper means 45 and the second plug engaged therewith will release from the operating string OS. It is to be noted that when the second plug means 50 is engaged in the second wiper means 45 and the wiper means has released from the operating string, the seal means 52 thereon engages within the bore 47 of the second wiper means and seals therewith. The seal means 46b&#39; on the wiper means 45 sealingly engage with the interior walls of the liner L and the second plug 50 in bore 47 form a movable seal behind the cement and wipe the cement from the interior wall as they jointly move therethrough along toward the first wiper means 26 latched in the catcher means 55. 
     The second plug means 50 is provided with a lower split latch ring 110 which is spaced from the latch ring 54 and its tapered seat as shown in FIG. 11 of the drawings. It is provided with the external buttress threads 111. The portion 28b of the first wiper means 26 is provided with internal buttress threads 28n as illustrated in FIGS. 12 and 13 for receiving and latching with the ratchet threads 111 on the latch ring 110 adjacent the lower end of the second plug means 50. The ring 110 is also on a tapered annular surface 110a of the second plug means as is the ring 54, so that flexing of the split rings is accommodated as they engage with seat 46f and threads 28n in the bore of 28a, respectively. The O-ring 51d is the second plug body 51 below split ring 110 seals in bore 28a of lower wiper means 26 as shown in FIG. 10. This secures the upper or second plug and wiper means 45 in latched, locked and sealing relation to the lower or first wiper means 26 when it is secured in the catcher means 55. This arrangement provides a safety backpressure valve in addition to the set shoe arrangement illustrated in FIGS. 1-5 of the drawings. Also, it enables the tandem wiper plug arrangement to be kept as a unit for milling to remove them from the liner when desired. 
     As noted with regard to the embodiment just described the structure enables the first or lower wiper means 26 to be secured to the operating string below the upper or second wiper means 45 which eliminates the disadvantage of having any portion of the first wiper means moving through or past any restriction, or smaller internal diameter of the first wiper means. It also enables the bore 28a of the first wiper means 26 to originate adjacent and extend away from the lower end of the second or upper wiper means 45 and since the operating string extends through the upper wiper means 45 and terminates in overlapping relation to the lower wiper means 26, the second plug means 50 forms an initial seal only in the operating string OS and not in the upper or second wiper means 45 when it is engaged therewith while the second wiper means remains secured to the operating string. 
     While the second or upper wiper means 45 has a portion 46f defining a smaller diameter than the diameter of the bore of the operating string or the bore of the second wiper means 45, the first or lower wiper means 26 is secured below the portion which forms the smallest internal diameter present in the bore of the upper or second wiper means. This avoids or reduces the possibility of the first or lower wiper means hanging up in such restricted diameter which might cause possible premature release of the second wiper means 45 during the cementing operations. 
     As noted previously, seals 45a, 45b, 45c, 45d, 231 and 232 close off communication between the operating string bore 21 and the well bore or cavity at the connections between the upper and lower wiper means and the operating string. When the first plug 35 is seated in the first wiper 26, it is latched therewith as previously described and the seal 217 on the lower plug sealingly engages in the bore of the first wiper. When it is desired to release the first plug and wiper from the operating string pressure in the operating string is increased. The foregoing sealing relationships confine the fluid pressure or at least prevent communication from the operating string to the components or the liner or well bore in a manner that might prevent the release of the plug and wiper from the operating string or adversely affect proper release of the wiper and its plug. 
     For example, in prior arrangements, the operating string fluid pressure has been permitted to communicate with and act on the lower wiper seals which presents a much larger effective cross-sectional area responsive to the fluid pressure. This may cause the system to malfunction by permitting the lower wiper to release from the operating string OS at a much lower than desired pressure. However, in the present invention the effective cross-sectional area responsive to fluid pressure force to release the lower plug is defined by seals 231, 232 on the piston 230 which diameter is smaller than the outer diameter of seals 29 on the first wiper. 
     Similarly, when the second or upper plug 50 is seated in upper wiper 45 (after the first plug and wiper have been released from the operating string) the seal 218 on the upper plug along with seal 210 between the upper wiper and operating string bore confines the operating string fluid pressure to the effective area defined by the diameter of the operating string adjacent seal 210. 
     By confining the fluid pressure that releases the lower and then the upper wiper means from the operating string in a manner by the example of the present invention, release of the wiper means may be better controlled to avoid malfunctions or nonfunctioning of the system. 
     Also, by positioning, or securing the upper and lower wiper to the operating string to permit rotation between the operating string and the upper and lower wipers, and the lock provided by the piston 230 and the interconnection between each the upper and lower wiper and the operating string inhibits premature wiper release during lowering or manipulation of the operating string in the well bore. 
     FIG. 16A is an enlargement of the arrangement shown in the other views and FIG. 16B shows an alternate form of the piston arrangment and recesses 91b on the operating string. 
     FIGS. 17-20 illustrate further details of the positioning means of the present invention which enable the liner L to be hung or supported on the well bore casing to extend therefrom as schematically represented in FIGS. 1-5 of the drawings. The seal means referred to generally at S is constructed in a manner previously described with regard to FIG. 6. 
     The hanger means referred to generally at H in FIGS. 18 and 20 are shown in greater detail and in the form illustrated in such view it will be noted that a pair of such hangers are demonstrated. In some circumstances only one hanger H will be employed, while in other arrangements, more than one hanger arrangement H may be employed. Where two or more hanger arrangements are provided, it may be preferable to simultaneously set such hanger arrangements to distribute the load of the liner among the multiple liner hangers and/or reciprocate the liner in the well bore before hanging the liner L on the casing C to aid in conditioning the well bore and/or drilling mud as well as rotating the liner either during cementing operations in the well bore or after it has been hung. 
     The operating string OS includes an inner member I having a noncircular mandrel portion M connected between the inner member I and the remainder of the operating string so it will perform its function without interfering with other operations. The liner L represented in FIG. 17 has an outer member Q connected therewith which extends upwardly from the liner L as represented in FIG. 17. 
     The inner member I and outer member Q are telescopically arranged as shown in FIGS. 17 and 18 and the hanger means H is supported on the liner L for engagement with the casing C to hang or support the liner L on the well bore casing C. The liner hanger arrangements H are in effect part of the liner L since the outer member Q supports the annular bearing means B and the first sleeve means S&#39;. The first sleeve means S&#39; extends longitudinally about the liner a suitable extent and is supported thereon at its lower end 115 by annular ring 116 on liner L or other suitable means for rotation relative to the liner. The first sleeve means S&#39; is provided with upper and lower spaced annular rows 90a and 91a&#39; of conically shaped segments 16a and 17a, respectively. The conically shaped segments 16a in the upper row 90a are circumferentially spaced relative to each other by the spaces 16b therebetween and are offset circumferentially relative to the conically shaped segments 17a in the row 91 a&#39; of which segments 17a are spaced circumferentially with spaces 17b therebetween. The conically shaped segments 16a and 17a of each row 90a and 91a&#39;, respectively, extend longitudinally of the first sleeve means S&#39; and the segments 16a, 17a are provided with outer tapered surfaces 16c, 17c, respectively. 
     Spaced annular rows of hanger slips 18 and 19, respectively, are formed by the hanger slip segments 18a, 19a, respectively, with the hanger slips 18a in row 18 being offset circumferentially relative to slip segments 19a in row 19. The slip segments 18a in row 18 and slip segments 19a in row 19 are circumferentially spaced from each other to provide circumferential spaces therebetween so that the hanger slips 18a are longitudinally aligned with the conically shaped segments 16a in row 90a and the hanger slip segments 19a are longitudinally aligned with the segments 17a in row 91a&#39;. Means in the form of elongated strips 20 are connected with the hanger slips 18a in row 90a and extend longitudinally of the first sleeve means S&#39; through the spaces 17b between the conically shaped segments 17a in row 91a&#39; and the strips 20 are connected at their lower ends 20a by any suitable means to the second sleeve means S&#34;  at 19c. 
     The sleeve means S&#34; is spaced longitudinally from the lower end 115 of the first sleeve means S&#39; as shown in FIG. 18. 
     The longitudinally extending strips 20 may be secured to suitable guide means G which includes the collar 14 connected to the strips 20 between the spaced rows 90a and 91a&#39; of conical segments 16a and 17a by any suitable means such as screws or the like as shown in the drawings. The guide means G also includes projection means 15 on collar 20 fitting in the longitudinal slot 15a of the sleeve S&#39; to assist in maintaining the hanger slip segments 18a in the row 18 aligned with the conically shaped segments 16a in the annular row 90a. In FIG. 20 the guide means G of FIG. 18 is shown as being in the form of a bracket 16&#39; positioned on the first sleeve means S&#39; to receive the elongated strips 20 and assist in maintaining the slip segments 18a aligned with the conical segments 16a in row 90a. 
     The slip segments 19a are connected with elongated strips 19b which are also connected to the second sleeve means S&#34; by any suitable means such as screws 19c or the like as shown. 
     In the arrangement shown in FIG. 18 the second sleeve means S&#34; is received within the annular and longitudinally extending recess or chamber 120 formed in the liner which recess is provided with a suitable piston and seal arrangement referred to generally at 121 adjacent the lower end of the second sleeve means S&#34; within the chamber. It can be appreciated that, if desired, the hanger arrangement may be structured and positioned so that the upper end of the slidable sleeve can be received within the chamber. The piston seal means 121 responsive to fluid pressure conducted from the port means 122 in the liner L to urge the sleeve means S&#34; upwardly or outwardly of chamber 120 which in turn simultaneously moves the rows of slip segments 18 and 19, respectively, toward and outwardly along the inclined surfaces 16c, 17c of the conical segments in the rows 90a and 91a&#39;, respectively, so that the rows of slip segments simultaneously engage and secure the liner L with the surrounding casing C. Shear pin 129 prevents premature movement of sleeve S&#34; and the split ring in the groove 129&#39; prevents the piston and seal arrangement 121 from being pumped out of the chamber 120. 
     It can be appreciated that before actuating the hanger means H hydraulically as described, suitable means to force fluid from the operating string to chamber 120 is employed. As shown in FIG. 19, a ball 125 can be pumped down the operating string to seat on the releasable seat 126 which is releasably secured to the lower end of the catcher means 55 by the shear pin 127&#39;. A suitable seal 128&#39; is provided between the seat 126 and the catcher means 55 and when the ball 125 is seated on the seat 126, fluid pressure may be increased inside the operating string OS and the liner L to move through port 122 into chamber 120 and actuate the second sleeve means as above described so that it moves longitudinally relative to sleeve S&#39; and engage slip segments 18a, 19a simultaneously on segments 16a, 17a and thereby suspend the liner L on the casing C. 
     After the liner is hung, an increase in pressure in the operating string may be employed to shear pin 127&#39; so seat 126 and the ball will move into liner L beneath the catcher. The seat is constructed so as not to interfere with flow of cement through the liner L and out one-way valve 40 as previously described. 
     The sleeve means S&#39; is supported on the projection or ring 116 at its lower end 115. The guide means G engage the strips 20 which are in turn secured to the second sleeve S&#34;. The second sleeve S&#34; is in turn supported in the chamber 120 formed in the liner L. To prevent premature actuation of the hanger means H the second sleeve means S&#34; is secured to the liner L in chamber 120 by shear pin 129 which shears upon a predetermined pressure from the operating string through port 122 in the liner L to the chamber 120 to shear for relative longitudinal movement between the sleeve means S&#39; and S&#34; for simultaneously setting the hangers with the casing C as previously described. The annular chamber 120, seal arrangement 121 and shear means 129 thus form releasable means for releasably securing said second sleeve means S&#34; to the liner. 
     FIG. 20 illustrates a hanger arrangement where the hanger means H may be mechanically set. If the mechanical set arrangement is employed, then the hydraulic form of FIG. 17 is eliminated and the structure shown in FIG. 20 would be substituted therefor. While the bearing means B is not shown in FIG. 20, it would assume the same relative position in FIG. 20 as is shown in FIG. 17. It can be appreciated that either the hydraulic set hanger arrangement of FIG. 18 may be employed between the apparatus shown in FIGS. 17 and 19, or a mechanical arrangement as shown in FIG. 20 may be used between the apparatus shown in FIGS. 17 and 19. FIG. 19 is an elevational view showing the upper and lower wiper means forming part of the cementing apparatus shown in detail in FIGS. 1-16 on the operating string. The cementing apparatus illustrated generally in FIGS. 1-16 may be used with the apparatus of FIGS. 17, 18 and 19, or that shown in FIGS. 17, 19 and 20 to accomplish the overall results of the methods of the present invention. 
     The sleeve means S&#39; in FIG. 20 is rotatably supported on liner L for rotation relative thereto by bearing means similar to that shown in FIG. 18. The sleeve S&#39; is supported at its lower end 115 by an annular ring 116 as described with regard to FIG. 18. The mechanical form also includes longitudinally spaced rows 90a, 91a&#39; of conical segments 16a, 17a, both of which are mounted on the first sleeve means S&#39;. Although two rows are shown, additional rows of segments may be employed if desired as well as a similar number of multiple rows of slip segments. The longitudinally spaced rows 18 and 19 of slip segments 18a, 19a are similar to those previously described. The strips 20 and 19b are secured, respectively, at one end to the slip segments 18a, 19a in rows 18, 19 of slip segments, and at their other end to sleeve means S&#34; as shown in the drawings. The sleeve means S&#34; is spaced longitudinally relative to sleeve means S&#39;. The second sleeve means S&#34;  includes an extension 127 on which are mounted the circumferentially, longitudinally extending bow spring means 128. The second sleeve means S&#34; is rotatably supported relative to the extension 127 by means of the overhanging shoulder 129 resting on the ring 130 supported on the ledge 131 of second sleeve S&#34;. When rotation is imparted to the operating string OS before the release R is actuated, rotation of the liner hanger arrangement H is restrained by the bow springs 128 so that 127 tends to remain stationary while the liner rotates to thereby disengage pin 132 from the J-slot arrangement 133 adjacent the lower end of extension 127 forming part of second sleeve means S&#34;. The J-slot 133 and pin 132 form a releasable connection between the second sleeve S&#34; and liner L in the FIG. 20 form. The J-slots 133 may be configured to release from pin 132 by right-hand or left-hand rotation of the operating strings. Also, the circumferentially spaced bow springs 128 restrain longitudinal movement between the liner hanger arrangements H and the operating string OS and liner L relative to 127 so that subsequent lowering of the operating string OS and liner L relative to 127 after disconnection therebetween effects relative longitudinal movement between the second sleeve means S&#34; and sleeve means S&#39; to urge the row 18 of slip segments 18a and row 19 of slip segments 19a on to their respectively conically shaped segment rows 90a and 90a&#39; for securing the liner to the casing C. 
     The bore of the nut N of release means R is non-circular as is the adjacent portion of the mandrel M so that rotation of the operating string backs the nut N out of the threads on the outer member Q. The threads in nut N may be right-hand or left-hand, but ordinarily left-hand threads may be used so that when the operating string OS is rotated to the right, the nut N will back out of its connection with the outer member Q. As noted previously, it may be desirable in some instances to rotate and/or reciprocate the liner L in the well bore to condition the well bore before the cementing operation, previously described, is begun. Also, it may be desirable to rotate the liner L during cementing operations. The shoulder means 140 on the nut N engages abutting shoulder means 141 on the inner member I enable the liner to be reciprocated in the well bore by raising and lowering the operating string OS when it is assembled as shown in FIG. 17 and before the liner is hung on the casing C. 
     Where it is desired to rotate the liner L before supporting it on the casing C, longitudinal, circumferentially spaced slot means 145 within the outer member Q are engaged as shown in FIG. 17 with spring biased longitudinal, circumferentially spaced key means 146 positioned in slots 146a on the inner member I whereby the liner may be rotated by rotating the operating string. 
     In normal cementing operations, the rotating string is manipulated to disengage the nut N before cementing operations are started so that the operating string connected with inner member I may be retrieved from outer member Q and the liner L in the well bore in the event of some malfunction during the cementing operation. This avoids cementing the entire operating string OS in the well bore. This is accomplished by longitudinally moving the operating string OS to disengage keys 146 from slots 147 and then rotating the operating string OS after the liner L has been hung on the casing C to disengage the nut N from between the operating string and outer member Q as above described. An arrangement is provided for rotating the liner in the well bore during cementing operations or after cementing the well bore during cementing operations or after cementing operations have been completed by the plug and wiper means of the present invention. 
     The operating string OS has been previously disengaged from outer member Q as above described and the outer member Q is now supported on the casing C along with the liner L so that the operating string OS may be lowered relative to outer member Q. When operating string OS is lowered keys 146 disengage from slots 145 and the lowering of the operating string OS is continued until the additional means referred to generally at 148 on the operating string OS and outer member Q are interconnected so that rotation may be imparted to the liner. The additional means 148 in the FIG. 17 form is shown as consisting of longitudinally extending, circumferentially spaced rigid projections 149 to provide longitudinally extending recesses therebetween so that the projections and recesses may be interfitted with the circumferentially spaced projections 150 adjacent the upper end of the outer member Q for imparting rotation to the outer member Q and to the liner L supported by means of the bearing B. 
     Another form of the additional means 148 may be employed which would merely consist of additional slot means in the outer member Q longitudinally spaced downwardly from and similar to the slot means 145 so that upon further lowering of the operating string, after keys 146 have disengaged from the upper slots 145, keys 146 on the operating string as shown in FIG. 17 thereon could be disengaged in the lower, slot means (now shown) spaced from slot means 145 to effect rotation of the liner. It can be appreciated where the additional means is in the form of a second key or slot arrangement on the outer member longitudinally spaced from the first key 146 and slot means 145 shown in FIG. 17, the rigid projection arrangement 149 and splines 150 on the outer member would be eliminated. When the operating string has been lowered to disengage slots 145 and keys 146, further lowering thereof engages the spring loaded, circumferentially spaced keys (not shown) in the second circumferentially slots (not shown) so that rotation may then be imparted to the operating string. 
     From the foregoing description it can be seen that the present invention provides an arrangement to release the first or lower wiper means from the operating string in a manner to prevent premature release of the second or upper wiper means. Also, the present invention contemplates an arrangement which enables the liner to be positioned in the well bore by either hydraulic or mechanically actuated hanger means as well as reciprocating and rotating the liner selectively, as desired. 
     While the location of the portion 46f of the second wiper means 45 that extends into the bore 21 of the operating string is shown as being substantially adjacent the lower end of the second wiper means 45, it can be appreciated that it may be located at a higher elevation in the bore 21. 
     Where the liner is to be set on the well bore bottom, no hanger will be employed. 
     The present invention has been described in detail in connection with its use in cementing a liner in a well bore; however, it may be employed in any situation where it is desired to isolate a substance or fluid in a well bore, cavity, tubular member or the like, even with varying internal diameters in the tubular member or adjacent tubular members. 
     The foregoing disclosure and description of the invention are illustrative and explanatory thereof, and various changes in size, shape and materials as well as in the details of the illustrated construction may be made without departing from the spirit of the invention.