RU2683433C2 - Impression block - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: invention relates to the oil industry and is intended to survey a well, namely to determine the state and shape of an object located in a well. Downhole seal contains an aluminum shell, a rubber cup and a housing with radial holes. Spring-loaded compression rod is installed in each radial hole. Rod is made with a cylindrical protrusion located in a separate hole of the aluminum shell. At the end of each cylindrical protrusion there is a groove located along the diameter and having a rectangular shape in cross section. At the same time on the side wall of each stem and each radial hole threaded.

EFFECT: increased convenience during assembly and disassembly.

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Description

The invention relates to the oil industry and is intended for inspection of the well, namely to determine the condition and shape of the object located in the well.

The well-known hydraulic seal (A.D. Amirov, K.A. Karapetov, F.D. Lembransky and others. "A reference book on the current and capital repair of oil and gas wells" M., Nedra, 1979, S. 309, p. 199, Fig. III.2) consisting of an inner pipe, two bodies, a fitting, a conical assembly, a lock nut, a rubber element with a plastic layer on the outer surface, a sleeve, a piston and a nut. This print has a complex design.

The closest in technical essence to the proposed device is a well seal (patent RU No. 155485, IPC ЕВВ 47/09, publ. 10/10/2015) containing an aluminum shell, a rubber cup and a housing with radial holes, each of which is equipped with a spring-loaded compression spring a rod made with a cylindrical protrusion located in a separate hole in the aluminum shell.

The disadvantage of this printing is as follows. When assembling the prototype, the rods are first held by special clamps recessed in their radial holes with protrusions on the lips or tools - screwdrivers, beards. Then the aluminum shell is moved in the direction of the rods so that the protrusions of the rods are aligned with the holes of this shell. Then remove the clamp or tool from the device. Due to the action of compression springs, the rods move away from the axis of the housing and the protrusions of the rods enter the holes of the aluminum shell. When disassembling the prototype, a clamp or tool is also used to move the rods to the axis of the housing. Installing the downhole seal on the housing or Holding the rods recessed in their holes when assembling and disassembling the device using devices or tools and simultaneously moving the aluminum shell along the housing create inconvenience to the collector.

The technical problem to which the invention is directed, is to increase the convenience in the assembly and disassembly of the device.

The specified technical problem is solved in that in a well seal containing an aluminum shell, a rubber cup and a body with radial holes, each of which has a spring-loaded compression spring rod made with a cylindrical protrusion located in a separate hole of the aluminum shell, is new that at the end of each cylindrical protrusion a groove is made with a rectangular shape in cross section, while a thread is cut on the side wall of each rod and each radial hole.

In FIG. 1 shows the proposed well print in longitudinal section; in FIG. 2 is a view A of FIG. one.

The downhole seal contains an aluminum shell 1 (Fig. 1), a rubber cup 2 and a housing 3 with radial holes 4. A rod 6 is spring loaded with a compression spring 5 in each radial hole 4. A compression spring 5 presses the inner end of the rod 6 and prevents the rod from spontaneously moving in the direction to the axis of the housing 3 when lowering or lifting the device. The rod 6 is made with a cylindrical protrusion 7 located in a separate hole 8 of the aluminum shell 1. At the end 9 of each cylindrical protrusion 7 there is a groove 10 located in diameter and having a rectangular cross-sectional shape. At the same time, a thread 11 is cut on the side wall of each rod 6 and each radial hole 4. An external thread is cut on the rods 6 and an internal thread in the radial holes 4.

The principle of downhole printing is as follows. When assembling a borehole seal, each rod 6 is screwed into the groove 11 of the radial hole 4 with a screwdriver and the flat end of its shaft is inserted into the groove 11. Gases or liquid when the rod 6 is twisted comes out of the radial hole 4 of the body through the gap between the threads 11 of these parts. The rods 6 are twisted until the cylindrical protrusion 7 is drowned in the radial hole 4. The end face 9 of each rod should not protrude outward from its radial hole 4. In this position, each rod 6 is fixed in the housing 3 from axial movement due to the threads 11 of the rod 6 and the radial hole 4 Next, a rubber cup 2 and an aluminum shell 1 are installed on the body 3. After, by turning the aluminum shell 1 on the body 3, its holes 8 are combined with the ends 9 of the cylindrical protrusions 7 of the rods 6 and the rods 6 are unscrewed with a screwdriver. Vania rod 6, its cylindrical projection 7 enters into the opening 8 of aluminum shell 1 and thus this shell 1 is fixedly held on the housing 3 by these projections 7. After fingerprinting downhole wellbore printing disassembly is carried out in the reverse order of assembly.

When assembling and disassembling the proposed borehole seal, the rods are fixed on the housing from axial movement by means of a thread cut on the side walls of each rod and each radial opening of the housing. The compression spring, acting by the force of elasticity on the rod, enhances the friction between the threads of the rod and the radial bore of the body. Due to this, during the descent and ascent of the device, the rotation of the rod is excluded and thereby its axial movement. In the prototype, clamps or other tools are used to hold the rods in a recessed position. Twisting and unscrewing the rods is much more convenient than holding the rods in a recessed state with the help of devices or tools - screwdrivers, barbs. Therefore, when assembling and disassembling the proposed device increases the convenience.

The list of information used: 1. A.D. Amirov, K.A. Karapetov, F.D. Lembransky et al. "A reference book on the current and capital repair of oil and gas wells" M., Nedra, 1979, p. 309, p. 199, Fig. III.2

1. Patent RU No. 155485, IPC ЕВВ 47/09, publ. 10/10/2015

Claims (1)

A downhole seal containing an aluminum shell, a rubber cup and a body with radial holes, each of which has a spring-loaded compression spring rod made with a cylindrical protrusion located in a separate hole of the aluminum shell, characterized in that a groove is located at the end of each cylindrical protrusion in diameter and having a rectangular shape in cross section, while a thread is cut on the side wall of each rod and each radial hole.

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