RU35901U1 - Load-bearing geophysical cable - Google Patents

Description

Load-bearing geophysical cable.

The utility model relates to the field of geophysical exploration and can be used for work in oil and gas wells.

Known commercially available load-bearing geophysical cables for logging, swabbing, perforation of oil and gas wells having a design of 1 to 7 electrically insulated conductive cores and two or four layers of armor made of galvanized steel wire, each of which has a direction opposite to the previous one (see OST153- 39.1-005-00).

Known load-bearing geophysical cable containing one or more insulated current-carrying conductors, coated with two or three pairs of armor layers with oppositely directed turns of wire in each pair, while in the upper armor layer of the wire can be laid with up to 50% reduction in the density of laying wires in the layer and the gaps between the wires are filled with polymer material (see patent RU No. 2209450, CL. G01V 1/52, publ. 07.27.2003).

A disadvantage of the known cable is the large outer diameter and, accordingly, the mass and dimensions associated primarily with the intended use of the cable for the study of horizontal and horizontal wells.

The objective of the utility model is to reduce the overall dimensions of the cable and increase the reliability of its protection against aggressive well fluid.

This problem is achieved by the fact that in the load-bearing geophysical cable containing one or more electrically insulated conductive wires, at least two layers of armor made of steel wire.

and an outer sheath of a polymeric material, according to a utility model, the outer sheath is reinforced with a wire or wire mesh with a cellular structure with a mesh size of 1-10 wire diameters.

The specified range allows to increase the longitudinal and transverse strength of the outer shell with virtually no increased specific gravity and a minimum increase in cable diameter, which is especially important when lowering the cable through the gland device at high wellhead pressure. If you go beyond the lower limit of the range, the required cable strength will not be achieved, and when you go beyond the upper limit of the specified range, the weight and diameter of the cable increases, which narrows the scope of its application. When performing cells with the specified size, it is necessary to take into account both transverse and longitudinal cell sizes.

The cable can be equipped with additional intermediate sheaths of polymer material, which increases the degree of protection of the cable armor wires from aggressive well fluid.

Cable armor and / or reinforcing mesh outer shell can be made of steel wire without zinc coating, which reduces the cost.

To reduce the specific gravity of the cable, the reinforcing mesh can be made of polypropylene or polyamide yarns. Also, the mesh can be made of CBM threads.

The gaps between the armor wires and / or the wires or threads of the reinforcing mesh can be filled with self-vulcanizing toluene or silicone sealant, which provides cable sealing and prevents the release of well fluid or gas through the gaps between the armor wires.

Pa fig. 1 and 2 illustrate cable options: in FIG. 1 - cable with a single core; in FIG. 2 - cable with a three-core core.

The cable contains a core 1, two-layer armor 2, a reinforcing mesh (reinforcing element) 3 and an outer sheath 4.

When exploring wells, including those with high hydrogen sulfide content and high wellhead pressure, geophysical instruments and equipment are lowered into the well using cable 1.

The proposed cable design allows you to perform the full range of geophysical work in wells, including logging, swabbing, lumbago face-blasting, etc.

Claims (5)

1. A load-bearing geophysical cable containing one or more electrically insulated conductive cores, at least two layers of armor made of steel wire, and an outer sheath of polymeric material, characterized in that the outer sheath is reinforced with a mesh of wire or thread with a mesh structure with a mesh size of 1 -10 wire diameters. 2. The cable according to claim 1, characterized in that it is equipped with additional intermediate shells of a polymeric material. 3. Cable according to any one of paragraphs.1 and 2, characterized in that the armor and / or reinforcing mesh of the outer shell are made of steel wire without zinc coating. 4. Cable according to any one of claims 1 and 2, characterized in that the reinforcing mesh is made of polypropylene or polyamide yarns. 5. The cable according to any one of claims 1 and 2, characterized in that the gaps between the armor wires and / or the wires or threads of the reinforcing mesh are filled with self-vulcanizing thiokol or silicone sealant.