RU107545U1 - EXPLOSIVE PACKER - Google Patents

Abstract

The utility model relates to perforating explosive equipment, namely to explosive packers of the VP type, designed to install uncoupling bridges in cased intervals of exploration, production and injection wells during operations in the oil and gas industry. The technical result of the claimed utility model is to increase the reliability of the explosive packer and eliminate the possibility of its accidental disconnection, leading to accidents. The technical result is achieved by the fact that in an explosive packer containing a cylindrical body, a plug with sealing rubber rings inserted into the body with the possibility of movement along the central axis of the body, an electric input installed in the tube, a nut connected to the body by thread, and an adapter connected to with nut pins, the pins are made of copper, nickel, zinc or iron-carbon alloys. 1 n.p. f-ly, 2 ill.

Description

The utility model relates to perforating explosive equipment, namely to explosive packers of the VP type, designed to install uncoupling bridges in cased intervals of exploration, production and injection wells during operations in the oil and gas industry.

Known explosive packer type VP (Rifle-blasting equipment. Handbook. M. Nedra 1990), consisting of a housing, a cork with rubber sealing rings inserted in the casing, an electric input installed in the cork, a nut connected to the casing by a thread, and an adapter which is connected to the nut using steel balls placed in the holes of the nut and adapter and used to disengage the adapter and nut when using the packer in the well.

The disadvantage of this device is the insufficiently reliable detachment of the adapter due to the ingress of dirt into the gaps between the parts of the explosive packer, errors by the operating personnel when determining the amount of gunpowder charged in the packer case, deformation of the packer parts when it is activated.

Closest to the claimed device is an explosive packer (patent for utility model RU 73911, published June 10, 2008), comprising an aluminum alloy body, a nut, a plug with O-rings and an adapter used to secure the explosive packer when it is lowered into the well. The adapter to the nut is connected using aluminum pins passing through the nut and adapter.

The advantage of this technical solution is a more reliable disconnection of the adapter when the packer is charged with gunpowder in the well. However, when using aluminum pins, due to the insufficient mechanical strength of this material during jerking of the geophysical cable on which the explosive packer is lowered into the well, accidental impacts, hooks to the walls of the well, situations may arise in which the adapter may spontaneously disconnect.

The objective of the proposed technical solution is to increase the reliability of the device and eliminate the causes of accidental disconnection of the explosive packer during its descent and rise in the well.

The essence of the utility model is that in an explosive packer containing a cylindrical body, a plug with sealing rubber rings inserted into the body with the ability to move along the central axis of the body, an electric input installed in the tube, a nut connected to the body by thread, and an adapter, connected to the nut by pins, the pins are made of copper, nickel, zinc or iron-carbon alloys.

The technical result of the claimed utility model is to increase the reliability of the explosive packer and eliminate the possibility of its accidental disconnection, leading to accidents.

The description of the claimed technical solution is illustrated by FIG. 1 and FIG. 2, which show possible design options for the explosive packer, where the positions are: 1 — casing, 2 — cork, 3 — nut, 4 — adapter, 5 — pins, 6 — rubber rubber rings, 7 - electric input.

The inventive device has a hollow cylindrical body 1 made of an easily deformable alloy, for example, AD31. A plug 2 is also inserted into the housing 1, also made of a more mechanically strong aluminum alloy, for example, D16. The gap between the housing and the plug is sealed with rubber sealing rings 6. Inside the plug 2 along its central axis is an electric lead 7. A nut is screwed or screwed into the housing 1, as shown in FIG. 1, or into the housing 1, as shown in FIG. 2 3, made of aluminum alloy D16, Nut 3 is inserted into the hole of the steel adapter 4. The nut 3 and adapter 4 are fixed from disconnection by pins 5 made of copper, nickel, zinc or iron-carbon alloy. All components of an explosive packer are made using turning and milling.

The operation of the device is as follows. Based on the known hydraulic pressure in the well and the inner diameter of the casing pipe, the weight of the gunpowder sample is determined by nomograms. The powder is poured into the housing 1 and an electric igniter is installed there. The explosive packer is connected using an adapter 4 to the equipment launched on the geophysical cable, the electric igniter is connected through the electric inlet 7 to the electrical core of the geophysical cable and lowered to a predetermined depth. When the packer reaches a predetermined depth, an electrical impulse is emitted from the day surface, from which the electric igniter is activated and sets fire to the powder sample in the housing 1. Due to the pressure of the powder gases, the housing 1 of the explosive packer is inflated and is firmly adhered to the walls of the well casing. At the same time, under the influence of the pressure of the powder gases, the plug 2 is squeezed out of the housing 1 and abuts against the adapter 4 with its end. Then, the adapter 4 is displaced, which, moving along the central axis of the housing 1, cuts off the pins 5. The housing 1 together with the plug 2 and nut 3 remain in well, and the adapter 4 is raised to the surface.

The use of pins 5, made of copper, nickel, zinc or iron-carbon alloys, which are more durable than aluminum, ensures reliable connection of the explosive packer with the equipment launched on the geophysical cable when it moves along the well.

Claims (1)

An explosive packer comprising a cylindrical body, a plug with sealing rubber rings inserted into the body with the possibility of movement along the central axis of the body, an electric input mounted in the tube, a nut connected to the body by threads, an adapter connected to the nut with pins, characterized in that the pins made of copper, nickel, zinc or iron-carbon alloys.