RU191106U1 - Sleeve packer - Google Patents

Abstract

A packer is proposed comprising an eccentric trunk for fluid overflow, having threads at the ends, and a trunk for cable conduction connected to end elements having a channel for fluid flow and a channel with cable sealing means connecting the cavity of the cable conduit to the annulus which, in order to reduce the complexity of installing the packer in the well due to the simplification of the work connected with supplying power to the object located below the packer, for example, to the pump, a trunk for cable installation is installed inside the trunk for the flow of fluid, its ends are inserted into the channels of the end elements, the ends of the barrel for the flow of fluid are connected to the end elements by threads having the same pitch and opposite directions of the turns, and parts of sealed electrical connectors are used as the indicated means for sealing the cable, the packer containing a piece of cable connected to them, laid in the trunk for cable routing. In addition, a sealed receptacle of the electrical connector is installed at one end of the packer, and on the other - a sealed plug.

Description

The utility model relates to drilling equipment, more specifically to equipment for sealing or isolating boreholes, namely to packers installed above pumps or other equipment requiring power supply.

In the present description, some terms are used in the following interpretations:

- in-tube space - the space inside the cavity of the tubing (hereinafter - tubing);

- annulus - the annular space between the outer surface of the tubing and the casing.

The terminology related to electrical connectors complies with GOST 21962-76, where, in particular, an electrical connector is called "... An electrical device designed to mechanically connect and disconnect electrical circuits, consisting of two or more parts (plugs, sockets) that form a detachable contact connection ".

Known packers with a cable entry, containing a hollow barrel with sealing elements (cuffs) placed on its surface, having an external groove in which an electric cable is laid to power the installation of an electric drive centrifugal pump (ESP) or other consumers, sealed in the groove by a compound (sealing material) ) [RU No. 56939], which can be additionally crimped by a protective pad mounted above the groove under the cuffs [RU No. 2540369].

Labor productivity during the installation of well-known packers in the well and their reliability in terms of tightness is low due to the need to pull the cable through it and fill it with the compound directly on the drilling site, where it is difficult to observe the conditions for reliable sealing, especially at low temperatures or high humidity.

Double-barrel packers are also known, including an inner barrel for downhole fluid flow and an outer barrel, or a pipe that encloses the cable laid between the trunks from the fluid stream, the cable being sealed in the packer by wiring through a multilayer sealing element with support washers [RU No. 2380518, 2468185]. These packers are technically complex, and their installation, requiring cable routing through the sealing element, is time consuming and requires a lot of attention.

Closest to the proposed one is a double-barrel packer with a cable entry, containing an external trunk (called a pipe in the patent description of an analog) with ledges at the ends and an elastic sealing element mounted on it, inside which an internal trunk (called a shaft in the patent description of an analog) is located for overflow fluid, threaded at the ends, a cable channel formed by the gap between the trunks, end elements (called brackets in the patent description), made in the form of glasses, in which the ends of the outer trunk go all the way to the ledges, and the cups have two channels in the bottom, one of which passes the inner trunk, and the second, connecting the cavity of the outer trunk with the annulus, contains means for sealing the cable passing through it, including a set of gaskets and a pressing element for preloading the gaskets mounted on the outside of the end element. The whole structure is pulled together with non-standard sub, screwed onto the ends of the inner trunk, and one of the ends of these sub has immediately external and internal threads [RU No. 77634]. The cable runs inside the outer trunk in the crescent-shaped space between it and the inner trunk. During installation, the cable is completely dragged through the first pressure element, the first sealing gaskets and the channel of the first threaded element, the space between the trunks, the end of the cable is brought into the channel of the second threaded element, which is not easy due to the free location of the cable in the gap between the trunks, then through the second sealing gaskets and a second pressure element. This requires considerable time and high qualifications of installers, whose skill determines the tightness of the cable wiring through the means for sealing.

A disadvantage of the known packer is the increased complexity of its installation in the well, due to the need to pull the cable through the above elements.

The purpose of this utility model is to reduce the complexity of manufacturing a packer and installing it in a well.

The technical result from the use of the proposed utility model is to reduce the complexity of installing the packer in the well due to the simplification of the work related to the supply of power to the object located below the packer, for example, to the pump.

The specified technical result is achieved by the fact that in the known packer containing an eccentric trunk for fluid flow, having threads at the ends, and a trunk for cable conduction connected to end elements having a channel for fluid flow and a channel with means for sealing the cable connecting the cavity of the barrel for conducting cable with annular space, the trunk for cable installation is installed inside the barrel for fluid flow, its ends are inserted into the channels of the end elements, the ends of the barrel for fluid flow are connected to the evymi elements of threads having the same pitch and opposite directions of coils, and as said means for sealing the cable portion used sealed electrical connectors, with the packer comprises bonding conductor to them cable segment that runs in the barrel for wiring cable.

In addition, a sealed receptacle of the electrical connector is installed at one end of the packer, and a sealed plug at the other.

Due to the location of the trunk for cable routing inside the trunk for fluid flow, the complexity of assembling and installing the packer is reduced, since the cable guided by a relatively narrow trunk can be easily pushed through the packer and brought out through the channel connecting the barrel cavity to the annulus. In addition, this reduces the hydraulic resistance of the packer, since the cross-sectional area of the crescent-shaped gap between the trunks through which the fluid flows is significantly larger than the cross-sectional area of the internal trunk of the known analogue.

Thanks to the use of parts of sealed electrical connectors in the proposed packer, and the introduction of the cable section connected to them into the packer, the cable routing in the pipe significantly reduces the complexity of installing the packer and preparing it for installation in the well.

In addition, the design of the packer is simplified and its reliability increased due to the use of standard, well-developed by the industry sealed electrical connectors, designed to operate at high temperatures and pressures, instead of a set of sealing and pressure elements.

Due to the fact that a sealed outlet part of the electrical connector is installed at one end of the packer, and a sealed plug part is provided at the other end, the tubing string assembly with the packer and the ESP will be faultlessly and safely assembled.

When using the above features, the design of the packer is simpler than with known analogues.

The invention is illustrated by drawings, where, as an example, a packer with a sleeve sealing element is shown.

In FIG. 1 shows a sectional view of a packer by a plane passing through the axis of its trunk and cable pipe.

In FIG. 2 shows, on an enlarged scale, the installation location of a portion of the electrical connector.

In FIG. 3 shows, on an enlarged scale, a breakout of a packer portion containing a portion of an electrical connector.

The total length of the packer assembly with the usual elements for packers, such as sub and centralizers, is many times greater than its width. This does not allow to fit its full image on a sheet of a standard format, and therefore some of the elements common to the proposed and well-known packers in the drawing of FIG. 1 are not shown. A break was also made in the image of the barrel, and one of the threaded elements is shown in truncated form. In order to give an idea of the proportions of the product, in FIG. 1 shows the approximate longitudinal and transverse dimensions of the packer, mating with tubing of nominal diameter 73 mm

 The proposed packer includes a barrel 1, designed for fluid flow, made in the form of a cylinder with a thread at the ends. The turns of both threads have the same pitch, but the opposite direction, for example, thread 2 is right, and thread 3 is left. Preferably, the threads are internal.

The packer also includes a sleeve 4 covering the barrel 1 of an elastic material. At the ends, the sleeve 4 is hermetically fastened to the barrel 1 by means of, for example, crimp sleeves 5. In the side wall, the barrel 1 has an opening 6 communicating the bore with a gap between the barrel and the sleeve. At the edges of the barrel 1 may have flats, or, as shown as an example in FIG. 1, holes 7 for gripping it with a tool.

Threaded elements 8 and 9 are screwed into the threaded ends of barrel 1. They can be identical in everything, but threads 2 and 3 are always in the opposite direction, for example, for element 8, thread 2 is right, and for element 9, thread 3 is left. From the opposite end, the threaded elements are provided with a standard conical pipe thread 10 for connection, for example, to a sub 11, which can be either external or internal, or one of them is external, and the other is internal. Typically, for a packer with a diameter of 122 mm, this is tubing 73. The packer as an industrial product also typically includes centralizers 12, one of which is shown in FIG. 1. The gap between the threaded elements 8, 9 and the housing 1 is sealed, for example, by elastic sealing rings 13.

Each of the threaded elements contains two longitudinal holes, or channels, 14 and 15 extending at one end into the bore of the barrel 1. The other end of the channel 14 is open into the in-pipe space of the tubing string, and the other end of the channel 15 is open into the annular space. Channel 14 is designed to pass the flow of well fluid, and channel 15 is for wiring through an electric cable packer. For technological reasons, the channels can be formed by drilling from two sides, and the axis of the counter-drilling can not coincide, as with channel 14, or can be directed at an angle to each other, like channel 15. But at the same time, the axis of the section of channel 15 that goes into the bore 1, parallel to the axis of the barrel 1, and a barrel 16 is formed in the form of a pipe connecting the channels 15 of both threaded elements. The gap between the barrel 16 and the channels 15 is sealed, for example, by elastic sealing rings 17. Thus, the barrel 16 is located inside the barrel 1.

Each of the threaded elements on the location side of the channel 15 has a cutout 18 with a platform 19 into which the channel 15 exits and on which one of the parts 20 of the sealed electrical connector (plug) for the electric cable 21 is installed. It is preferable that one end of the packer on the platform 19, the socket part 20p of the electrical connector was installed, and on the other, the male part 20b, and the socket part 20p should be installed at the lower end closest to the ESP. Between the parts of the connector and the outer ends of the channel 15, a gasket 22 is installed.

For wiring and securing the cable ends extending from the packer, the centralizer 12 may be provided, for example, with a groove 23 and a fastening element 24.

The assembly of the proposed packer is as follows.

The threaded elements 8 and 9 are installed in the assembly device with the possibility of their axial movement so that the axis of the threads 2 and 3 and the axis of the channels 15 coincide in pairs.

The threaded end of the barrel 1 with the sleeve 4 mounted on it and the installed sealing rings 13 are aligned until it touches the end element 8. In the channel 15 of the threaded element 8, the end of the barrel 16 is inserted with the sealing rings 17 mounted on it. The other end of the barrel 16 with the sealing rings 17 is inserted into the channel 15 of the end element 9 and the threaded ends of the barrel 1 and the end element 9 are brought into contact. By turning the barrel 1 by hand, the first turns of threads 2 and 3 are acquired, after which the tool protrusions are introduced into the holes I have 7 barrel 1 and, rotating the barrel, tighten the threads to a given point. The ends of the barrel 16 with the sealing rings 13 while sliding in the channels 15, deepening into them.

Through the channels 15 and the trunk 16 conduct an electric cable 21, pre-connected to one of the parts, for example, 20p, of the first electrical connector and strengthen this part on the site 19 of the first end element. The cable connection point can be sealed by casting with compound 25. The free end of the cable 21 emerging from the channel 15 is connected to another part, for example 20b, of an electrical connector, the connection point is sealed and this part is fixed on the site of the second end element. All the above-described assembly operations of the packer are carried out by experienced personnel in the workshop, which provide not only high productivity, but also favorable for the quality of assembly and reliability of sealing. The packer is delivered assembled to the drilling site, where it remains only to attach the mating parts of the electrical connectors from the ESP and from the power cable to it.

The main purpose of the proposed packer in the design with a sleeve seal is to prevent access of water from an upstream aquifer to the oil reservoir in case of loss of tightness by the casing. To do this, the proposed packer is connected to the ESP, the power supply to which is supplied by the cable according to the scheme: the cable leading to the top with the socket at the lower end - the male part 20c at the upper end of the packer - a piece of cable 21 in the trunk 15 of the packer - socket 20p at the lower end of the packer - plug on the power cable of the ESP.

In the upper part of the tubing string at the wellhead, an adjustable fitting is installed, which serves to throttle the flow and maintain the required hydrostatic pressure at the packer level.

The practical experience of the proposed packer showed that the time for its inclusion in the power supply circuit of the ESP was reduced many times, to an almost insignificant amount in several minutes. At the same time, his failures due to poor-quality electrical connections or cable seals ceased completely.

Claims (2)

1. A packer containing an eccentric trunk for fluid flow, having threads at the ends, and a trunk for cable conduction, connected to end elements having a channel for fluid flow and a channel with means for sealing the cable, connecting the cavity of the barrel for cable conduction with the annulus, characterized in that the cable trunk is installed inside the barrel for fluid flow, its ends are inserted into the channels of the end elements, the ends of the barrel for fluid flow are connected to the end elements by threads having the same the new step and the opposite directions of the turns, and parts of sealed electrical connectors were used as the indicated means for sealing the cable, and the packer contains a cable segment connected to them laid in the trunk for cable routing. 2. The packer according to claim 1, characterized in that a sealed receptacle of the electrical connector is installed on one end of the packer, and a sealed plug on the other.

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