RU2400618C1 - Device for stage cementing of casing pipe - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: device for stage cementing of casing pipe includes hollow housing with cementing holes and a plug in the wall, which is connected to upper and lower reducers; slide valve with cementing holes and split fixture, which is arranged on inner side of housing, sleeve with cementing and process holes and with a notch made on outer surface for interaction with fixture and arranged on inner side of slide valve and forming together with it, reducers and the housing the upper and lower process cavities, annular bushing installed in lower cavity and fixed on outer surface of the sleeve with a shear element, upper and lower bushings fixed on the sleeve with shear elements. On lower bushing there installed is differential bushing on shear elements and stop nut is fixed, which restricts movement of differential bushing relative to lower bushing in which there are holes covered with differential bushing; at that, those holes are interconnected with cementing holes in the sleeve, slide valve and housing.

EFFECT: improving operating reliability of the device and enlarging its application area especially in deep and in horizontal wells.

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Description

The invention relates to the field of fastening of oil or gas wells, in particular to step cementing of casing strings. Provides increased reliability of the device and the expansion of its scope, especially in deep and horizontal wells.

A known coupling (device) for stepwise cementing of a casing string (patent RU No. 2132449 C1, IPC6 E21B 33/14, publ. 06/27/1999), including: a housing with circulation holes, in which a movable differential sleeve is installed that overlaps the circulation holes of the housing and fixed relative to the latter with a shear pin; a saddle connected to the left end of the differential sleeve by a left-hand thread, on the lower end of which there are protrusions interacting with the end grooves made in the lower part of the housing; and a cementing plug interacting with the landing saddle, in the cavity of which an air chamber is made, closed by a shear bottom.

A disadvantage of the known cementing clutch is the low reliability of operation, due to the possibility of not returning the differential sleeve to its original position after landing in its saddle cementing plugs. This is due to the fact that the end protrusions of the saddle when moving it down may not enter the end grooves of the housing due to the possible rotation of the differential sleeve and the saddle during the washing of the cement mortar of the first stage and pumping of the cement mortar of the second stage. This rotation through a certain angle is possible by swirling the jets of the pumped fluids due to the turbulent mode of their movement, which arises due to the unsteadiness of the pumping of liquids, in which the density of the pumped liquids, the performance of the pumping, the pressure and the rate of flow will change over time.

Therefore, if the end protrusions of the saddle, when moving downward, do not enter the end grooves of the housing, it is possible that the differential sleeve stops higher. And, having not reached the initial lower position, it will not block the circulation openings of the casing, which will cause backflow of cement into the cavity of the lower stage of the casing, under-raising of the cement and poor cementing of the second stage of the casing.

Closest to the invention in technical essence is a device of the USC type for stepwise cementing of casing strings in wells, including a hollow body with cementing holes and a plug in the wall, connected to the upper and lower sub, a spool with cementing holes and a split retainer, located on the inside of the housing sleeve with cementing and technological holes and with a notch on the outer surface for interaction with the retainer, located on the inner side of the ash otnik and forming the upper and lower technological cavities with sub and housing, an annular sleeve fixed on the outer surface of the sleeve by a shear element, upper and lower bushings fixed on the sleeve by shear elements (A.A. Tsybin, P.A. Morzhits, S.A. .Tsybin, A.V. Panteleev, A.A. Solomatkin, “Equipment for securing wells and separating reservoirs. VESTNIK Magazine, Association of Drilling Contractors, 2009, No. 1, pp. 36-39).

The main disadvantage of the known device is that after cementing the casing from the shoe to the installation interval of the device in the well, in order to open the cementing holes, they are also the washing holes in the device and wash out any excess cement slurry pumped above the installation interval from the annulus of the well , it is necessary to throw a special plug (“bomb”) into the casing from the wellhead and wait 40-60 minutes, and in deviated deep wells even more time until this obka reaches apparatus and establish a saddle sleeve sealingly overlapping the cementing ports. After that, overpressure is calculated in the casing as calculated to open the cementing holes.

However, in the practice of stepwise cementing of casing strings using a well-known device such as USTs, it happens that in some wells the grouting pumped above the device has time to thicken to such a condition during the fall of a special plug (“bomb”) and the opening of cementing holes, which fails wash it from the annulus of the well.

As a result, the well is put into emergency condition, the correction of which requires a lot of money and time.

The technical result of the invention is to increase the reliability of the device and expand its field of application in horizontal wells.

The technical result is achieved by the fact that the device for stepwise cementing of the casing string in the well includes a hollow body with cementing holes and a plug in the wall connected to the upper and lower sub, a spool with cementing holes and a split retainer located on the inside of the housing, a sleeve with cementing and technological holes and with a notch on the outer surface for interaction with the retainer, placed on the inside of the spool and forming with it, the upper and lower process cavities, an annular sleeve installed in the lower cavity and fixed on the outer surface of the sleeve by a shear element, upper and lower bushings fixed on the sleeve by shear elements, according to the invention, a differential sleeve on the shear elements is mounted on the lower sleeve and the thrust is fixed a nut restricting the movement of the differential sleeve relative to the lower sleeve, in which holes are made overlapped by the differential sleeve, and these holes The holes are connected with cementing holes in the sleeve, spool and housing.

Figure 1 shows a General view of the device in the transport position.

In Fig.2 - the same after the cementing of the first stage from the shoe of the casing to the interval of installation of the device in the well and opening holes for washing the annulus of the well above the device.

In Fig.3 - the same after landing a special plug ("bomb") on the differential sleeve of the device, closing the washing holes and opening the cementing holes.

Figure 4 - the same after the cementing of the second stage, landing the top squeezing cement plugs on the upper sleeve and closing the cement holes.

A device for stepwise cementing of the casing string (Fig. 1) consists of a housing 1 with cementing (flushing) holes A ₁ , cork 2, upper 3 and lower 4 sub, spool 5 with cementing (flushing) holes A ₂ , split retainer 6, sleeve 7 with cementing (flushing) A ₃ and technological holes B and C and a notch H, an annular sleeve 8, a shear element 9, an upper sleeve 10, a shear element 11, a lower sleeve 12 with holes E, a shear element 13, a differential sleeve 14, shear element 15, unitary enterprise molecular nut 16 and thrust washer 17.

The sleeve 7, the upper 3 and lower 4 sub, the housing 1, the spool 5 and the ring sleeve 8 form two technological cavity G and D.

The tightness of the contact surfaces between the parts of the device is ensured by means of o-rings.

The device operates as follows (Fig.1-4).

After the cementing of the first stage from the casing shoe to the installation interval of the device in the well using the lower cork plug (not shown in Figs. 1-4), the internal pressure is increased in the casing to cut the shear element 15. In this case, the differential sleeve 14 moves up and open the technological holes E in the lower sleeve 12, in communication with the cementing holes A ₃ , A ₂ and A ₁ in the sleeve 7, the spool 5 and the housing 1, respectively, through which the annular washing is carried out equipment in the well from the cement slurry pumped over the device during cementing of the first stage (figure 2).

Then a special plug (“bomb”) 18 is thrown into the casing, which sits on the differential sleeve 14, shifts it all the way into the thrust nut 16, and then cuts the shear element 13 under excessive internal pressure, moves the lower bushing 12 all the way into the thrust nut 16. At the same time, the cementing holes A ₃ , A ₂ and A ₁ are opened, through which the casing is cemented to the second stage using the upper cork plug 19 (Fig. 3).

After the squeeze plug 19 is planted on the upper sleeve 10, the shear element 11 is cut off under excessive internal pressure, the upper sleeve 10 moves down to the stop in the lower sleeve 12 and blocks the cementing holes A ₃ , A ₂ and A ₁ .

In this case, the hole B communicates with the device’s internal cavity above the upper stopper plug 19. Excessive internal pressure is transmitted through the hole B and cavity G to the upper end of the spool 5, which cuts the shear element 9 and together with the ring sleeve 8 moves downward into the cavity D until it stops in lower sub 4. In this position of the spool 5, the split retainer 6 snaps into the notch H, and the cementing hole A ₂ shifts relative to the cementing hole A ₁ in the housing 1, i.e. spool 5 overlaps this hole A ₁ (figure 4).

After the expected solidification time (GC) of the cement slurry of the second casing cementing stage, a cement plug 19, a plug (“bomb”) 18, a cement cup between them, a differential sleeve 14 and a thrust nut 16 are drilled, thereby providing a passageway of the device.

Claims (1)

A device for stepwise cementing of a casing string, including a hollow body with cementing holes and a plug in the wall, connected to the upper and lower sub, a spool with cementing holes and a split retainer, located on the inside of the body, a sleeve with cementing and technological holes and a notch on the outer surface for interaction with the retainer, located on the inner side of the spool and forming with it, sub and body, the upper and lower technologically cavity, an annular sleeve mounted in the lower cavity and fixed on the outer surface of the sleeve by a shear element, upper and lower bushings fixed on the sleeve by shear elements, characterized in that the differential sleeve is mounted on the shear elements on the lower sleeve and a thrust nut is fixed, restricting the differential movement bushings relative to the lower sleeve, in which holes are made, overlapped by a differential sleeve, and these holes are in communication with cementing holes in the gil open, spool and housing.

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