RU2766491C1 - Method and device for connection of cores of geophysical cable to downhole instrument - Google Patents

Abstract

FIELD: cables.

SUBSTANCE: group of inventions relates to a method and a device for connection of cores of a geophysical cable to a downhole instrument. Method for connection of cores of geophysical cable packed in flexible tubing to downhole instrument consists of two stages. First stage is carried out in conditions of the base and consists in removal of the projecting element of the internal longitudinal seam of the coiled tubing with the packed geophysical cable to the length of the sealed section of the adapter. Small-size elements are assembled, passing through the injector hole, forming a small-size link. Adapter is tightly installed on the prepared place, coiled tubing is squeezed around the adapter, a cone, an oil sealer and a sealing assembly of the geophysical cable are successively installed in the adapter. Cores of the geophysical cable are passed in stages along the axial hole of the adapter, cone, sealer of oil and sealing assembly. Contact sealing assembly is mounted. Second stage is carried out at the mouth of the investigated well. Coiled tubing is installed, small-size link is passed through coiled tubing injector, after which additional shell is put on it, it rises above sealing unit, a die is inserted into the prepared slot. Additional shell is lowered, fixed by the die and attached to the adapter, which is preliminary connected to the geophysical instrument.

EFFECT: improving safety during preparatory work.

5 cl, 1 dwg

Description

SUBSTANCE: group of inventions relates to a method and device for carrying out preparatory work for geophysical surveys of inclined and horizontal wells using coiled tubing (CT) for lowering and pushing instruments.

The cores of this cable are connected to the downhole tool by means of a cable lug and an instrument bridge, but due to the fact that the coiled tubing injector has a limited bore size, for example, 31.4 mm, the cable lug cannot be connected in advance. Therefore, the connection to the pipe and to the cable is carried out partially, i.e. only those elements that, in the assembled state (small link), pass through the injector of the installation. And the rest of the components and parts are installed after passing the end of the pipe through this injector, i.e. in the zone of increased danger under the injector hanging above the mouth of the investigated well.

Known standard cable lugs produced by domestic suppliers of geophysical equipment, for example, NKB 3-36 (Catalogue of products of PGFS LLC). But it is impossible to connect it to the pipe and cable at the same time, and the termination would have to be carried out in a zone of increased danger, under the injector of the mounted coiled tubing unit, due to the overall dimensions.

Known standard cable lugs produced by domestic suppliers of geophysical equipment, for example, NKB 3-36 (Catalogue of products of PGFS LLC). But it is not possible to connect it to the pipe and cable at the same time, and the termination would have to be carried out in a zone of increased danger, under the injector of the mounted coiled tubing unit, due to the overall dimensions.

Known cable lug TN01.92.01.000 (Catalogue of products, Passport TN01.92.01.000PS, p. principle of operation of the product, pages 6-9) designed to connect the underground part of geophysical equipment to a sleeveless long pipe.

The disadvantages of this method of attaching this tip are that there is a need to perform critical and complex work, such as connecting and sealing cable cores and contacts, in a high-risk area under an injector mounted on a wellhead. As well as the fragility of small details of contacts and sealing elements, which are very inconvenient for installation at the wellhead, especially in winter.

The technical task of the proposed solutions is to increase safety during the preparatory work. In addition, the reliability of downhole equipment increases when expensive methods are used for well research, such as lowering and pushing tools using coiled tubing with a packaged geophysical cable. Labor costs are reduced, efficiency and mobility during equipment installation are increased, installation time is saved.

The technical result is the separation of parts and assemblies of the layout for connecting the cores of a geophysical cable packaged in coiled tubing with a downhole tool into two links, which ensures increased safety during preparatory work. The link of small-sized elements passing through the injector and the link of elements attached to the link of small-sized elements, using an additional cup with an inserted cracker, after passing the link of small-sized elements through the injector passage limited in diameter, is achieved by the fact that the method of connecting the strands of a geophysical cable packaged in flexible tubing to the downhole tool, consisting of two stages, the first of which is carried out in the conditions of the base, in which the protruding element of the internal longitudinal seam of the coiled tubing with the packaged geophysical cable is removed to the length of the sealed section of the adapter, then small-sized elements are collected passing through the hole of the injector, forming a small-sized link, for which an adapter is hermetically installed on the prepared place, the tubing is pressed around the adapter, a cone, an oil seal, a core sealing unit are sequentially installed in the adapter of the geophysical cable, while the cores of the geophysical cable are gradually passed through the axial hole of the adapter, cone, oil seal and sealing unit, and the contact sealing unit is mounted in its place, the second stage is carried out at the wellhead of the investigated well, at which coiled tubing is installed, during which a small-sized link pass through the injector of the coiled tubing installation, after which an additional sleeve is put on it, for this it is raised above the sealing unit, on which a cracker is inserted into the prepared groove, the additional sleeve is lowered, fixing it with a cracker and attached to the sub pre-connected to the geophysical instrument.

An additional sleeve is attached to the sub with a threaded connection.

The achieved technical result is to increase safety during the preparatory work due to the fact that all the most important work on sealing and connecting electrical contacts is carried out in advance, at the base and by specialists. And the foreman of work in the zone of increased danger is left with the minimum number of operations, i.e. safety of work and reliability of the made researches increases.

The technical result is also achieved by using a device for implementing a method for connecting cores of a geophysical cable packaged in a flexible tubing to a downhole tool, including an adapter, a cone, an oil seal, a core sealing unit, a cracker, an additional sleeve, a contact sealing unit, an attachment sub. to the downhole tool, while the adapter is made with the possibility of compressing its outer surface around the coiled tubing, and at its lower end there is an internal conical groove, in which a cone is installed, pressing the outer layer of the cable armor left between the two conical surfaces of the friction, while the cone is connected in series oil seal, core sealing unit, contact sealing unit and sub of the connection unit to the downhole tool, and the cores of the geophysical cable are gradually passed through the axial hole of the adapter, cone, oil seal and core sealing unit, and attached to the connector m of the contact sealing unit connected to the sub of the connection unit to the downhole tool, in addition, the core sealing unit is made with a groove on the outer side for installing a cracker, which fixes an additional metal cup on the outside of the device, on the inner wall of which there is a step for relying on this cracker, at the same time, the additional sleeve is made in the form of a cylinder and is connected to the sub of the connection unit to the downhole tool, and the cone, adapter, oil seal, core sealing unit and contact sealing unit are made with external dimensions with the possibility of their passage through the injector hole.

The inner wall of the additional sleeve at the lower end is made with a thread for connection to the sub, and the outer wall in the upper part is made conical.

A device for implementing the method is necessary to facilitate the connection to the cable cores of elements that do not pass through the injector

An additional sleeve, covering a small-sized link assembled on the base and passed through the injector, is screwed to a standard adapter of a larger diameter, connecting the downhole tool to the cable. Thus, time is saved for installing a downhole tool, labor costs are reduced, which increases efficiency, mobility during installation of equipment, the quality of assembly of elements assembled on the base is ensured, and, in general, the safety of work on connecting cores of a geophysical cable packed in coiled tubing to a downhole tool is ensured. .

The drawing shows a coiled tubing section (section) with an attached downhole tool when using a method and device for connecting cores of a geophysical cable packed in coiled tubing to a downhole tool.

A method and device for connecting cores of a geophysical cable packed in coiled tubing to a downhole tool is carried out as follows:

The method of connecting the cores of a geophysical cable packaged in a flexible tubing to a downhole tool consists of two stages.

The first stage is carried out in the conditions of the base, a small-sized link is assembled. First, the protruding element of the inner longitudinal seam of the flexible tubing 1 with the packaged geophysical cable 2 is removed for the length of the sealed section of the adapter 3.

Then small-sized elements are assembled, passing through the injector opening, forming a small-sized link, for which an adapter is hermetically installed on the prepared place. The outer surface of the adapter 3 is made with annular grooves, which are filled with metal when the pipe 1 is compressed around the adapter 3, providing a tight hermetic connection. A cone 4 and an oil seal 5 are installed in the adapter 3, after which the node 6 for sealing the cores 7 of the geophysical cable 2 is installed.

The cores 7 of the geophysical cable 2 are gradually passed through the axial hole of the adapter 3, the cone 4, the oil seal 5 and the sealing assembly 6. Node 6 for sealing cores 7 made with an annular groove on the outer side for installing crackers 8.

The assembly 9 for sealing contacts is mounted in its place.

The second stage is carried out at the mouth of the investigated well.

During the second stage, during the installation of coiled tubing, a small-sized link assembled on the base is passed through an injector (not shown in the drawing).

An additional cup 10 is put on the small-sized link passed through the injector, lifting it above the sealing unit 6, on which a cracker 8 is inserted into the prepared groove, an additional cup 10 is lowered, fixing it with a cracker 8 and connected by a threaded connection to the sub 11 connected to the connection unit 12 , previously connected by a geophysical instrument.

The device for implementing the method of connecting the strands of a geophysical cable packaged in GKNT 1 to a downhole tool consists of an additional cup 10 made in the form of a cylinder in which a step is made on the inner wall to rest on a cracker 8.

Additional cup 10 can be made of metal or composite material.

The inner wall of the additional sleeve 10 at the lower end is made with a thread for connection to the sub 11, and the outer wall in the upper part is made conical.

The essence of the invention is as follows.

In the preparatory period, at the end of the coiled tubing wound on its transport drum, the protruding element of the internal longitudinal seam of the pipe is removed to the length of the sealing section of the compressed adapter 3, for example, using the “Device for removing the element of the longitudinal weld of the coiled tubing protruding into the interior with a packaged geophysical cable” . Then, passing the wires 7 of the geophysical cable 2, along the axial hole, a crimped adapter 3 is hermetically installed at the prepared place at the end of the coiled tubing 1. And an oil seal 5 is attached to the adapter 3, with a cone 4 installed between them to fix the friction of the outer layer of the cable armor 2. Then they install sealing unit 6 cores 7 of the geophysical cable 2 and mount the contact sealing unit 9 in its place. At this stage, the assembly and final installation of the small-sized link is completed. It is ready to be lowered into the well and can wait for coiled tubing 1 to be used at the storage site. At the same time, an additional sleeve 10 with an insert cracker 8 is also pre-completed for connecting to the sub 11 of a standard connection 12 to the downhole tool (not shown in the figure).

Application procedure.

After installation of the installation at the wellhead of the well under investigation, the end of the coiled tubing 3 with a small-sized link is passed through the injector of the installation (not shown in the figure) and connected using an additional sleeve 10 to the sub 11 of the standard connection unit 12 to the downhole tool. To do this, first, an additional sleeve 10 is put on a small-sized link, and then, having installed the cracker 8 in its place in the groove on the sealing unit 6, the sleeve 10 is screwed to the sub 11. be used "Flexible Link Device for Geophysical Instruments".

The technical and economic advantage of applying the group of inventions is to create the possibility of using with increased safety and reliability, standard, successfully used in the practice of geophysical surveys, units and components of domestic production when connecting cores of a geophysical cable with a downhole tool.

The method and device for connecting cores of a geophysical cable to a downhole tool are industrially applicable and can be implemented using modern materials, equipment and technologies.

Claims (5)

1. A method of connecting cores of a geophysical cable packaged in a coiled tubing to a downhole tool, consisting of two stages, the first of which is carried out in the conditions of the base, in which the protruding element of the internal longitudinal seam of the coiled tubing with the packaged geophysical cable is removed to the length of the sealed area adapter, then small-sized elements are assembled passing through the injector hole, forming a small-sized link, for which an adapter is hermetically installed on the prepared place, the tubing is pressed around the adapter, a cone, an oil seal and a sealing unit for the cores of the geophysical cable are sequentially installed in the adapter, while the cores of the geophysical cable are gradually passed through the axial hole of the adapter, the cone, the oil seal and the sealing unit, and the contact sealing unit is mounted in its place, the second stage is carried out at the mouth of the well under investigation, at which the coiled tubing is installed, small the critical link is passed through the injector of the coiled tubing installation, after which an additional sleeve is put on it, for this it is raised above the sealing unit, on which a cracker is inserted into the prepared groove, an additional sleeve is lowered, fixing it with a cracker, and attached to the sub, previously connected to geophysical instrument. 2. The connection method according to claim 1, characterized in that the additional sleeve is attached to the sub with a threaded connection. 3. A device for implementing the method of connecting the wires of a geophysical cable, including an adapter, a cone, an oil seal, a core sealing unit, a cracker, an additional glass, a contact sealing unit, a sub of the connection unit to a downhole tool, while the adapter is made with the possibility of compressing its outer surface around The coiled tubing, and at its lower end there is an internal conical groove, in which a cone is installed, pressing the outer layer of cable armor left between the two conical friction surfaces, while an oil sealer, a core sealing unit, a contact sealing unit and an adapter of the connection unit to the cone are connected in series to the cone. downhole tool, and the cores of the geophysical cable are passed in stages through the axial hole of the adapter, cone, oil seal and core sealing unit and connected to the connectors of the contact sealing unit connected to the sub of the connection unit to the downhole tool, in addition, the sealing unit the silt is made with a groove on the outer side for installing a cracker, which fixes an additional metal cup on the outside of the device, on the inner wall of which there is a step for resting on this cracker, while the additional cup is made in the form of a cylinder and is connected to the sub of the connection unit to the downhole tool, and the cone, the adapter, the oil seal, the core sealing assembly and the contact sealing assembly are made with external dimensions so that they can pass through the injector opening. 4. The device according to claim 3, characterized in that the inner wall of the cup at the lower end is threaded for connection to the sub. 5. The device according to claim. 3, characterized in that the outer wall of the glass in the upper part is made conical.

Images