RU2733101C1 - Sealing assembly of probe for electric logging and probe comprising sealing assembly - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: invention relates to equipment for investigation of wells, in particular to probes for electric well logging, and more specifically to sealing assembly of probe, providing tightness of electric equipment placed in housing of probe, from action of environment of well. Essence: sealing assembly of probe for electric logging contains cylindrical housing, at least two dielectric bushings installed on housing, at least one ring-shaped electrode, coaxially arranged on housing between dielectric bushes and contacting by its end surfaces with end surfaces of dielectric bushes, insulating facility arranged on cylindrical housing, means of pressing force and fixation. Each of at least one ring-shaped electrode and at least two dielectric bushings in contact with ring-shaped electrode has curvilinear end surfaces. Curved end surfaces of electrode are conjugated with curvilinear end surfaces of dielectric sleeves contacting with it.

EFFECT: technical result is improved tightness and elimination of damages of electrical equipment of probe, increased flexibility of probe and safety of logging instruments in wells, elimination of deformations of ring-shaped electrodes and dielectric bushings.

8 cl, 3 dwg

Description

The technical field to which the invention relates

The invention relates to equipment for testing wells, in particular, to probes for electrical well logging, and more specifically to a sealing assembly of the probe, which ensures the tightness of the electrical equipment placed in the probe body from the effects of the well environment.

State of the art

Various devices are known for sealing the electrode assembly of a logging tool.

The closest in technical essence to the present invention is the seal assembly of the probe for electrical logging, described in patent RU 2488851 C2, publ. 07/27/2013. The known sealing assembly of the probe for electrical logging comprises a cylindrical body, a plurality of dielectric sleeves mounted on the body, a plurality of annular electrodes coaxially placed on the body between the dielectric sleeves and contacting their end surfaces with the end surfaces of the dielectric sleeves, an insulating means placed on the cylindrical body for electrical insulating a plurality of ring-shaped electrodes from the body, according to the invention, one of the dielectric sleeves contacts the end surface with the cylindrical body, and each of the plurality of ring-shaped electrodes and dielectric sleeves contacting the ring-shaped electrodes have beveled end surfaces, and the beveled end surfaces of the electrodes are mated with the beveled end surfaces of dielectric bushings in contact with them, while the sealing unit contains a means of creating a pressing force and fixing ... Preferably, the acute angle of inclination of the end surface of each annular electrode and dielectric sleeve relative to the longitudinal axis of the housing is in the range from 20 to 40 °.

The disadvantage of this closest technical solution is the insufficient degree of flexibility of the probe for electrical logging in the radial direction, since the beveled end surfaces of the electrodes and dielectric bushings are in close contact with each other and prevent the “curvature” of the probe for electrical logging, which is necessary for the safe passage of logging tools in the wells ... Also, at high bending loads of the electric logging tool, the ring-shaped electrodes and dielectric bushings are deformed, which leads to depressurization and damage to the electrical equipment located in the tool body.

The claimed invention eliminates the indicated disadvantages and makes it possible to achieve the claimed technical result.

Disclosure of invention

The technical problem that the proposed solution solves is the creation of a seal assembly of the probe, which has a sufficient degree of flexibility in the radial direction for the safe passage of logging tools in the wells and exclusion of deformations of ring-shaped electrodes and dielectric bushings, which subsequently lead to depressurization and damage to electrical equipment.

The technical result consists in increasing the tightness and eliminating damage to the electrical equipment of the probe for electrical logging, increasing the flexibility of the probe, increasing the safety of the passage of logging tools in wells, eliminating deformations of the annular electrodes and dielectric bushings.

To solve this problem with the achievement of the claimed technical result, the sealing assembly of the probe for electrical logging contains a cylindrical body, at least two dielectric sleeves installed on the body, at least one annular electrode, coaxially placed on the body between the dielectric sleeves and contacting its end surfaces with the end surfaces of the dielectric bushings, the insulating means placed on the cylindrical body, the means for creating the pressing and fixing force, and each of the at least one ring-shaped electrode and at least two dielectric bushings in contact with the ring-shaped electrode have curved end surfaces, and the curved end the surfaces of at least one electrode are mated with the curved end surfaces of the dielectric bushings in contact with it.

Each end curved surface of the electrode and dielectric bushings is made spherical with a diameter of at least half of the outer diameter of the probe.

The insulating means is made in the form of a dielectric material tube.

The sealing unit additionally contains sealing means placed in recesses made on the end curved surfaces of the electrode.

The sealing unit additionally contains sealing means located in recesses made on the surface of the housing under the end dielectric bushings.

The sealing means are made in the form of rubber rings.

The annular electrode is a radiating or measuring element.

The electric logging tool contains the above seal assembly.

Brief Description of Drawings

Figure 1 shows a prior art seal assembly for a probe;

Figure 2 is a longitudinal section of a probe containing a seal assembly according to the claimed invention;

Fig. 3 is a longitudinal section of the probe seal assembly according to the claimed invention.

Implementation of the invention

The claimed sealing assembly of the probe for electrical logging comprises a cylindrical body of the probe, at least two dielectric sleeves mounted on the body, at least one annular electrode coaxially placed on the body between the dielectric sleeves and contacting its end surfaces with the end surfaces of the dielectric sleeves, an insulating means placed on the cylindrical body for electrical isolation of at least one ring-shaped electrode from the body, means for creating a pressing force and fixing the ring electrode and dielectric bushings, each of at least one ring-shaped electrode and at least two dielectric bushings in contact with the ring-shaped electrode, have curved end surfaces, and the curved end surfaces of the electrode are mated with the curved end surfaces of dielectric bushings in contact with them.

The preferred curved surface is a spherical surface with a diameter of at least half the outer diameter of the logging tool.

On the end curved surfaces of the electrode, recesses are made in which sealing means are located.

Figure 1 shows a prior art seal assembly for an electrical logging probe, which is the closest to the claimed technical solution. The main difference between the known sealing assembly and the claimed one is that each of the plurality of annular electrodes and dielectric bushings in contact with annular electrodes have beveled end surfaces, rather than curved ones. The beveled end surfaces of the electrodes and dielectric bushings are in close contact with each other and prevent the “curvature” of the probe, do not provide the necessary flexibility of the probe, leading to deformations of the ring-shaped electrodes and dielectric bushings, which in turn leads to depressurization and damage to electrical equipment placed in the probe housing. And when the end surfaces of the annular electrodes and dielectric bushings are curved, the required flexibility of the probe is provided, deformations of the annular electrodes and dielectric bushings are excluded, and there is no depressurization and damage to the electrical equipment placed in the probe body, a safe passage of the logging tool in the well is ensured.

Figure 2 shows a longitudinal section of a probe containing a seal assembly according to the present invention. On the cylindrical body 1 of the probe, at least one annular electrode 3 and at least two dielectric bushings 4 are coaxially mounted, the annular electrodes 3 being placed between the dielectric bushings 4 and in contact with their end curved surfaces 5 with the end curved surfaces 6 of the dielectric bushings. For electrical isolation of at least one ring-shaped electrode 3 from the body 1, an insulating means 2 is placed on the cylindrical body 1, which is made in the form of a tube of dielectric material.

The end surfaces of at least one ring-shaped electrode 3 and at least two dielectric bushings 4 are made curved, which ensures a better fit of the end surface 5 of the electrode to the end surface 6 of the dielectric bushings. Under the action of the compressive force, the curved surface 5 of the annular electrode 3 is pressed against the curved surface 6 of the dielectric sleeve 4, and thus the best sealing is ensured.

The preferred curved end surface 5 of the electrode and the end surface 6 of the dielectric bushings. is a spherical surface with a diameter of at least half the outer diameter of a logging tool.

Figure 3 shows a longitudinal section of a probe seal assembly according to the claimed invention. In the recesses 7 made in the end surfaces 5 of the annular electrodes 3 are placed sealing means 8, in this case, are rubber rings.

On the surfaces of the electrodes 3 in contact with the insulating tube 2, recesses 9 are made, in which the sealing means 10 are located, in this case, they are rubber rings.

On the surface of the housing 1, under the end dielectric bushings 4a and 4b, there are recesses 11, in which sealing means 12 are located, also made in the form of rubber rings.

The annular electrode 3 can be a radiating or measuring element.

The means for creating a pressing force and fixing the annular electrodes and dielectric bushings contacts the end surface of the dielectric bushing 4a, located distally with respect to the dielectric bushing 4b in contact with the cylindrical body 1, and is intended to prevent axial displacements of the annular electrodes and dielectric bushings relative to the body. As a means of creating a pressing and fixing force, a nut can be used, for example, which provides fixing and pressing of the annular electrodes and dielectric bushings 4.

O-rings seal all possible gaps and protect the probe assembly from external media.

The presence of end curved surfaces on the electrodes and dielectric bushings is a distinctive feature of the claimed technical solution. Implementation of the device in the above manner increases the tightness and eliminates damage to the electrical equipment of the probe, increases the flexibility of the probe, eliminates deformation of ring-shaped electrodes and dielectric bushings, increases the safety of the passage of logging tools in wells.

Claims (8)

1. Sealing assembly of a sonde for electrical logging, comprising a cylindrical body, at least two dielectric sleeves mounted on the body, at least one annular electrode coaxially placed on the body between the dielectric sleeves and contacting its end surfaces with the end surfaces of the dielectric sleeves, insulating means placed on the cylindrical body, means for creating a pressing force and fixing, characterized in that each of at least one annular electrode and at least two dielectric bushings in contact with the annular electrode has curved end surfaces, and the curved end surfaces at least at least one electrode is mated with curved end surfaces of dielectric bushings in contact with it. 2. Sealing unit according to claim 1, characterized in that each curved end surface of the electrode and the bushings is spherical with a diameter of at least half the outer diameter of the probe. 3. Sealing unit according to claim 1, characterized in that the insulating means is made in the form of a tube of dielectric material. 4. Sealing unit according to claim 1, characterized in that it further comprises sealing means located in recesses made on the end curved surfaces of the electrodes. 5. The sealing unit according to claim 1, characterized in that it further comprises sealing means located in recesses made on the surface of the housing under the end dielectric bushings. 6. Sealing unit according to claim 4 or 5, characterized in that the sealing means are made in the form of rubber rings. 7. A sealing assembly according to claim 1, characterized in that the annular electrode is a radiating or measuring element. 8. Probe for electrical logging, characterized in that it contains a seal assembly according to PP. 1-7.

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