RU2385472C2 - Well source of seismic energy, unit of high voltage electrode and unit of low voltage electrode - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: device comprises body, unit of high voltage electrode, unit of low voltage electrode, in which hole is provided for feeding wire into interelectrode space. Body comprises the main part, end part and links that connect mentioned parts. Specified components of body are arranged as a whole. Unit of high voltage electrode is installed in the main part of body. Unit of low voltage electrode is installed in the end part of body. In body wall there is a through hole provided, which passes via the main part, link and end part. Hole is designed for arrangement of electric wiring. Unit of high voltage electrode in well source of seismic energy comprises electrode, two disks of dielectric material, bush and conical bush. Unit of low voltage electrode in well source of seismic energy comprises contact element, bush with ledge and conical section and guide pipe.

EFFECT: improvement of structure rigidity and electric safety.

6 cl, 3 dwg

Description

FIELD OF THE INVENTION

The invention relates to means for generating seismic energy, for example, elastic vibrations in oil-bearing formations, in particular to electrohydropulse arresters using exploding wires to initiate an electric discharge in the interelectrode space.

State of the art

The prior art well source of elastic oscillations, comprising a housing, a high-voltage electrode assembly, a low-voltage electrode assembly, in which a hole is provided for feeding wire into the interelectrode space (SU 423075 A, G01V 1/02, published 09.09.1974). The design of this well-known well source is unreasonably complex both in manufacture and in operation, not rigid enough and not sufficiently electrically safe.

As the closest analogue, a well-known borehole source of seismic energy is selected, comprising a housing, a high-voltage electrode assembly, a low-voltage electrode assembly, in which a hole is provided for feeding wire into the interelectrode space (RU 2248591 C1, G01V 1/157, publ. March 20, 2005). The disadvantage of this known borehole source is the lack of aggregation of the most critical nodes - the high-voltage electrode assembly and the low-voltage electrode assembly, as well as the insufficient rigidity of the structure as a whole, since the high-voltage electrode assembly and the low-voltage electrode assembly are not located in one housing, but are connected by rods providing education interelectrode space.

Disclosure of the invention

The present invention solves the problem of creating an electrohydropulse emitter in the form of a separate module with higher strength, stiffness and electrical safety.

In the course of solving this problem, the following set of technical results is achieved: increasing the rigidity and strength of the structure, increasing the aggregation of structural units, increasing electrical safety due to better insulation of electrical components.

These technical results are achieved in that the borehole seismic energy source comprises a housing, a high-voltage electrode assembly, a low-voltage electrode assembly, in which a hole is provided for supplying wire to the interelectrode space, the housing comprises a main part, an end part and connecting jumper parts, said parts the housing is made in one piece, the node of the high-voltage electrode is located in the main part of the housing, the node of the low-voltage electrode is located in the end part to of the housing, in the wall of the housing there is a through hole passing through the main part, the jumper and the end part, designed to accommodate electrical wiring.

These technical results are also achieved by the fact that the node of the high-voltage electrode of the borehole seismic energy source contains an electrode, two disks of dielectric material and a sleeve located between them, the mentioned disks and the sleeve are installed in the body of the borehole seismic energy source and have central holes in which the electrode is located, having a section with a conical shape, said sleeve has a conical hole, inside which there is a section with a conical shape of the electrode, at There is a conical sleeve of dielectric material between the conical bore of the sleeve and the electrode.

These technical results are also achieved by the fact that the node of the low-voltage electrode of the borehole source of seismic energy contains a contact element, a sleeve, the outer surface of which has a section with a conical shape, forming a protrusion on the outer surface of the sleeve, and a contact element and a guide tube are installed inside the sleeve by means of a collapsible connection the contact element and the guide tube have a central hole for feeding wire.

It is advisable to make the high-voltage electrode prefabricated, the contact element of the electrode is made of refractory material and installed by means of a collapsible connection.

It is advisable to place at least one sealing element on the outer surface of the sleeve of the high voltage electrode assembly.

In the design of the low-voltage electrode assembly, it is advisable to install the contact element and the guide tube in the sleeve by means of a threaded connection.

List of figures

Figure 1 shows a cross section of a borehole source of seismic energy.

Figure 2 shows the design of the low-voltage electrode assembly.

In FIG. 3 shows the design of a prefabricated high voltage electrode.

Information confirming the possibility of carrying out the invention

The downhole source of seismic energy comprises a housing 1, a node 2 of a high voltage electrode, a node 3 of a low voltage electrode, in which an opening 4 is provided for supplying wire (not shown) to the interelectrode space 5. The housing 1 contains the main part 6, the end part 7 and the connecting parts of the jumper 8. The said parts 6, 7 and 8 of the housing 1 are made in one piece.

The node 2 of the high-voltage electrode is located in the main part 6 of the housing 1. The node 3 of the low-voltage electrode is located in the end part 7 of the housing 1. In the wall of the housing 1 there is a through hole 9 passing through the main part 6, the jumper 7 and the end part 8. The hole 9 is intended for placement of electrical wiring (not shown). Electrical wiring refers to power electrical cables, busbars, and other wiring elements.

The node 2 of the high-voltage electrode of the borehole source of seismic energy contains an electrode 10, two disks 11 and 12 of dielectric material and a sleeve 13 located between them. The disks 11 and 12 and the sleeve 13 are installed in the housing 1 of the borehole source of seismic energy and have central holes in which are located electrode 10. The electrode 10 has a section 14 with a conical shape, as shown in Fig.3. The sleeve 13 has a corresponding conical hole, inside which there is a section with a conical shape of the electrode 10, as shown in figure 1. Between the conical bore of the sleeve and the electrode there is a conical sleeve 15 of dielectric material.

It is advisable to make the high-voltage electrode 10 prefabricated from the rod 16 and the contact element 17, as shown in Fig.3. The contact element 17 of the electrode 10 is expediently made of refractory material and installed in the rod 16 by means of a collapsible connection 18, for example, threaded.

It is advisable to place at least one sealing element 19 on the outer surface of the sleeve 13 of the high-voltage electrode assembly. A sealing ring may be used as the sealing element.

The assembly 2 of the high-voltage electrode assembly is installed inside the main part 6 of the housing 1. FIG. 1 shows an example of fixing the assembly 2 inside the housing 1. According to the example, the main part 6 of the housing 1 has a shoulder 22 against which the disk 12 abuts. On the other hand, the assembled assembly compresses a nut 20 having an external thread and screwed on the inner surface of the housing 1. The nut 20 interacts with the disk 11 directly or through the washer 21. The axial movement of the nut 20 is transmitted sequentially to the disk 11, the sleeve 13 and the disk 12. Due to the fact that the sleeve 13 s an conical hole conjugate with the conical portion 14 of the electrode 10 and the electrode 10 is fixed from axial displacement as it is connected with the current-carrying element 23, there is a sturdy fixing electrode 10, having high strength and rigidity. The connection of the electrode 10 with the current-supplying element 23 can be provided by a nut 24.

The node 3 of the low-voltage electrode of the borehole source of seismic energy contains a contact element 25, a sleeve 26 and a guide tube 27. The outer surface of the sleeve 26 has a section 28 with a conical shape, forming a protrusion 29 on the outer surface of the sleeve 26. The contact element 25 is installed inside the sleeve 26 by means of a collapsible connection 26 and a guide tube 27. The contact element 25 and the guide sleeve 27 have mutually mating surfaces at their ends. The guide sleeve 27 is made of material that excludes welding or other adhesion to the wire material. Said contact element 25 and guide tube 27 have a central hole 4 for supplying wire from a wire feed unit (not shown). The wire feed unit can be made in any known manner, for example, as in the sources of information given in the "prior art" section of the present description.

It is advisable to install the contact element 25 and the guide tube 27 in the sleeve 26 by means of a threaded connection.

The node 3 of the low voltage electrode is installed in the end part 7 of the housing 1 as follows. First, a contact element 25 and a guide tube 27 are installed in the sleeve 26 by detachable connection. Then, the assembled sleeve 26 is mounted in the conical socket of the end part 7. The conical section of the sleeve 27 fits snugly into the conical socket in the end part 7 of the housing 1. The hollow nut 30 having thread on the outer surface is screwed into the end portion 7, as shown in figure 2. The axial movement of the nut 30 either directly or through the washer 31 is transmitted to the protrusions 29 of the sleeve 26 and informs the sleeve 26 of the axial movement against the stop in the conical socket of the end part 7 of the housing 1. The sleeve 26 is firmly and rigidly held in the housing 1 by the friction forces arising on the conical surface .

Devices work as follows.

The borehole source in accordance with the present invention is part of a borehole projectile having all the necessary components and elements: energy storage devices, electric ignition circuits, a device for feeding metal wire into the working interelectrode space, etc., for example, as described in the tool selected in as a prototype.

As a result of the supply of control signals to the actuating nodes, the metal wire is fed into the working interelectrode space 5 through the hole 4 in the node 3 of the low-voltage electrode. A high voltage pulse is supplied to the high-voltage electrode 10. The wire heats up, it explodes and a plasma channel forms between the electrode 10 and the contact element 25 of the low-voltage electrode. The electrical energy stored in the storage rings forms an electric discharge between the high-voltage and low-voltage electrodes, and a shock wave arises in the liquid medium of the well, which propagates inside the well and beyond.

In the event of failure of the device or its individual components, due to the high aggregation of the structure, a quick replacement of failed components is provided. The design has high rigidity and high electrical insulating performance of parts operating under high voltage.

Claims (6)

1. A downhole source of seismic energy, comprising a housing, a high-voltage electrode assembly, a low-voltage electrode assembly, in which a hole is provided for supplying wire to the interelectrode space, characterized in that the housing comprises a main part, an end part and connecting said jumper parts, said parts the housings are made in one piece, the high-voltage electrode assembly is located in the main part of the housing, the low-voltage electrode assembly is located in the end part of the housing, in the wall of the housing A through hole passing through the main part, a jumper and an end part intended to accommodate electrical wiring is flaxed. 2. The site of the high-voltage electrode of the borehole source of seismic energy, comprising an electrode, characterized in that it contains two disks of dielectric material and a sleeve located between them, said disks and the sleeve are installed in the body of the borehole source of seismic energy and have central holes in which the electrode is located, having a section with a conical shape, said sleeve has a conical hole, inside of which there is a section with a conical shape of the electrode, while between the conical hole The sleeve and electrode have a conical sleeve of dielectric material. 3. The node according to claim 2, characterized in that the electrode is made prefabricated, the contact element of the electrode is made of refractory material and is installed by means of a collapsible connection. 4. The node according to claim 2 or 3, characterized in that on the outer surface of the sleeve there is at least one sealing element. 5. The site of the low-voltage electrode of the borehole source of seismic energy, containing a contact element, characterized in that it contains a sleeve, the outer surface of which has a section with a conical shape, forming a protrusion on the outer surface of the sleeve, a contact element and a guide tube are installed inside the sleeve by means of a collapsible connection the contact element and the guide tube have a central hole for feeding wire. 6. The node according to claim 5, characterized in that the contact element and the guide tube are installed in the sleeve by means of a threaded connection.

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