RU55420U1 - CHARGING MODULE OF CUMULATIVE PERFORATOR OF ONE-TIME APPLICATION - Google Patents

Abstract

The invention relates to perforating and blasting in oil and gas wells. The technical result is an increase in the cumulative effect of the charging module of the punch. The charging module of the cumulative punch contains a frame 1 with seats for the orientation of the cumulative charges 2. The frame 1 is made in the form of a pipe. The cumulative charges 2 are connected in series by the detonating cord 3 and the initiation unit. Cumulative charges 2 are paired with respect to each other, i.e. two charges forming a pair are located relative to each other at an angle of 180 °. The seats for adjacent pairs of cumulative charges 2 are made as follows: the first place 4 in the overlying pair is located relative to the first place 5 of the underlying pair at an angle a, which can be either sharp or blunt. 2 ill.

Description

The invention relates to perforating and blasting in oil and gas wells.

Known cumulative perforator for the well, containing a frame of metal rods installed along the length of the perforator, cumulative charges placed in the frame with grooves made in them along the side surface for fixing charges in the cores of the frame, the site of the initiation of cumulative charges and means of screening explosions, which also serve as additional means fixing cumulative charges and rod cage in a given position / RU 2241115 C1, IPC ⁷ E 21 V 43/117, publ. 2004.11.27 /. Adjacent cumulative charges are offset relative to each other, at least in the cross-section of the punch, at each step of setting these charges along the length of the puncher at the same and / or different angle in one and / or different directions of reading the angle.

The known perforator provides an increase in the opening density of the wellbore while maximizing the use of operating parameters, however, the design of the perforator to provide a clear orientation of the seats for the cumulative charges has a complex structure that requires the presence of hard disks, making grooves in the cumulative charges, and pairwise orientation of the charges is not assumed.

Known charging module cumulative case perforator containing a base, cumulative charges in the body of the base and a channel filled with explosive, the base is made as a whole from a porous material, and the cumulative charges are interconnected by a continuous channel with BB / SU 1810503 A1, IPC ⁵ E 21 B 43/116, publ. 09/23/1993 /.

The implementation of the base as a whole provides a clear orientation of the cumulative charges, simplifies the assembly of the hammer and its reliability. However, the known design involves the execution in a single base continuous along the entire length of the channel filled with explosives, and also not provided for pairwise orientation of the charges.

The problem to which the invention is directed is to develop the design of a perforator that provides the required parameters for the depth and area of perforation.

When carrying out the invention, the task is solved by achieving a technical result, which consists in increasing the cumulative effect by providing the maximum possible area of overlapping cumulative jets of charges of the productive formation in the well in cross section.

The specified technical result is achieved in that the charging module of a single-shot cumulative rotary hammer contains a sealed housing, inside of which there is a frame with seats for orienting the cumulative charges and means for initiating charges, wherein the specified frame is a tube in which the installed cumulative charges have a pair orientation, while the two charges forming a pair are located relative to each other at an angle of 180 °, and the seats for the lower coming neighboring pairs of cumulus tive charges are arranged so that the first seat in the overlying charge pair has an obtuse or acute angle relative to the first displacement of the seat of the underlying charge pairs. In addition, the frame for the orientation of the cumulative charges can be made either in the form of a metal pipe, mainly steel, or in the form of a pulp and paper pipe or in the form of a plastic pipe.

The paired orientation of the charges at an angle of 180 ° allows you to increase the cumulative effect of the charging module of the perforator by ensuring penetration of the maximum size holes in the reservoir by imposing reactive forces of paired cumulative charges.

The orientation in the frame of the seats for each pair of cumulative charges made with an offset by an acute or obtuse angle allows us to achieve the maximum area of overlapping (density) by cumulative jets of charges of the reservoir in the cross section of the well.

The implementation of the frame in the form of a pipe having a continuous surface, allows you to perform a rigid, clear orientation of the cumulative charges, and the hollow space inside the pipe provides a free connection of the cumulative charges.

As the material from which the frame is made, metal or a material prepared on the basis of a pulp and paper or plastic base, i.e. such material, which must have a certain density to provide the required stiffness for the orientation of the cumulative charges.

The invention is illustrated by drawings, where in Fig.1 schematically shows a perforator, in Fig. Section aa in Fig.1.

The charging module of the cumulative perforator contains a frame 1 with seats for cumulative charges 2. The frame 1 is made in the form of a pipe. Cumulative charges 2 are horizontally placed along the length of the frame and are connected in series by a detonating cord 3 and an initiation unit, for example, an explosive cartridge (not shown). Cumulative charges 2 are fixed in the frame 1 by any known method and have a pair orientation relative to each other, i.e. two charges forming a pair are located relative to each other at an angle of 180 °. The seats for adjacent pairs of cumulative charges 2 in the frame 1 are made as follows:

the first seat 4 for the first charge in the first (overlying) pair is located relative to the first seat 5 of the first charge in the second (underlying) pair at an angle α, which can be either sharp or blunt, depending on the required perforation conditions.

The perforator charging module assembled on the surface of the well is lowered on a wireline or tubing to a predetermined depth of perforation of the wellbore. When the circuit is closed, triggering means and cumulative charges are triggered 2. The cumulative charge jets burn through the casing of the well and part of the rock (reservoir). After shooting, the perforator is raised to the surface.

Claims (4)

1. The charging module of a single-shot cumulative rotary hammer, comprising a frame with seats for orienting the cumulative charges and means for initiating charges, characterized in that said frame is a tube in which the installed cumulative charges have a pair orientation, with two charges forming a pair relative to each other at an angle of 180 °, and the seats for below going adjacent pairs of cumulative charges are located in the frame so that the first seat behind row in the overlying pair has an obtuse or acute angle of displacement relative to the first seat of the charge of the underlying pair. 2. The cumulative perforator according to claim 1, characterized in that said frame is made in the form of a metal pipe. 3. The cumulative perforator according to claim 1, characterized in that the said frame is made in the form of a pulp and paper tube. 4. The cumulative perforator according to claim 1, characterized in that said frame is made in the form of a plastic pipe.