RU2156858C1 - Process of assembly of tubular jet perforators - Google Patents

Abstract

FIELD: oil industry, conducting of perforation operations in production wells. SUBSTANCE: shaped charges are installed and anchored in tube of perforator in correspondence with invention. They are interconnected by means of detonation cord and are linked to initiation unit. Electric communication line from initiation unit to electric lead-in in head of perforator is laid. Tube is shut by head on top and by lug from beneath. Internal space of tube is vacuumed through hole in nipple which is placed in lug before assembly. When nipple shuts automatically after termination of vacuuming process hole with nipple is sealed additionally. EFFECT: increased perforation efficiency. 1 dwg

Description

 The invention relates to the oil industry and can be used when conducting perforation work in production wells, and more specifically when assembling cumulative perforators immediately before lowering them into the well.

 The general assembly assembly scheme for case-shaped cumulative perforators [1] is known, which includes the installation of charges in a certain sequence in the case of a perforator (for installing charges in the case there are special holes, slots that are hermetically closed after installation), the connection of charges with a detonating cord that is passed through the bottom of the charges , between each other and with the initiating device, laying an electric communication line (ignition wire) from the initiating device to a sealed electric input in the head of the hole Ator, setting explosives initiating device and a sealing housing, closes the top head and the bottom tip with sealing rubber rings.

 The specified scheme is used universally in the practice of perforation and is therefore accepted by us as a prototype.

 The disadvantage of the considered assembly method is the inability to significantly increase the efficiency of perforation work performed by perforators assembled according to the specified scheme.

 The aim of the invention is a guaranteed increase in the effectiveness of perforation by improving the assembly scheme of perforators. This goal is achieved by the fact that an operation of evacuating the internal space of the perforator body is additionally introduced into the known assembly scheme [1].

 The drawing shows a cumulative case punch assembly.

 The proposed method consists in the fact that in the known method of assembly [1], in which the cumulative charges 1 are installed and fixed in the case of a perforator 2, connected with a detonating cord 3 to each other and with an initiating device 4, an electric communication line 5 from the initiating device 4 is laid to the electric input 6 in the head of the punch 7, install the blasting means in the initiating device 4 and hermetically close the body of the punch 2 from above with the head 7, and from below with a tip 8, the latter is preliminarily equipped from a verst 9 with a nipple 1, through which after performing the assembly operations listed above, the internal space of the housing 2 is vacuumized, and after automatic closure with a nipple 10 after vacuuming is completed, the opening 9 with the nipple 10 is additionally sealed with a plug 11. The design of the nipple 10 may be different and therefore not conditionally shown in the drawing shown.

 The assembly of case-shaped cumulative perforators with evacuation of the internal space of the case has a number of advantages over the conventional assembly method [1].

 Firstly, the speed of the cumulative jet in a vacuum increases and, consequently, its breakdown ability increases (the depth and diameter of the perforation channels increase).

Secondly, in a vacuum decreases the heating of the explosive cumulative charges, which makes it possible to carry out perforation in wells with a temperature of more than 150 ^o C.

 Thirdly, since there is no shock wave in vacuum, the loads on the body during explosions are reduced, which increases its durability.

 Fourth, the absence of a shock wave in a vacuum makes it possible to carry out perforation at lower hydrostatic pressures, i.e. at shallow depths or in depression.

 Fifth, evacuation allows you to control the tightness of the body immediately before the descent into the well.

 Thus, all of these factors in the aggregate significantly increase the efficiency of perforation.

Sources of information
1. Grigoryan N.G., Pometun D.E. and other shooting and blasting in wells.- M .: Nedra, 1980, p. 208-209.

Claims (1)

 A method for assembling case-shaped cumulative perforators, in which cumulative charges are installed and fixed in the case of a perforator, connected with a detonating cord to each other and with an initiating device, an electric line is connected from the initiating device to the electric input in the head of the perforator, blasting devices are installed in the initiating device and hermetically closed the casing is on top with a head and the bottom with a tip, characterized in that the internal space of the casing is evacuated through an opening with a nipple, otorrhea in advance, prior to assembly, equipped with a tip, and after automatic closing of the pin at the end of the evacuation hole is further sealed with the plug nipple.