RU182279U1 - SHOCK DEVICE TO THE INITIATING HEAD OF THE ARROW-EXPLOSIVE EQUIPMENT - Google Patents

Abstract

The technical solution relates to pressure-activated shock mechanical fuses and can be used in the oil and gas industry. The technical result of the claimed device is to increase the reliability and the possibility of its reuse (when replacing pins) by expanding the range of the device when carrying out shooting and blasting on tubing. This is achieved by the fact that the percussion device to the initiating head of the perforating explosive equipment contains a formed joint between each other, the upper and lower parts of the body, the upper part of which is made in the form of a glass turned upside down with a through radial channel in its lateral surface, and the lower part is in the form of a sleeve with an external annular stop and an internal annular piston movement limiter, and a hammer, which is movable is installed in the lower part of the through vertical channel located in the cavity of the piston cup, and in the cup between its inner cylindrical surface and the outer surface of the piston there is a ferrule with formed and along its height, radial through holes for shear pins of the same size, coaxial radial through holes for shear pins formed in a piston, the inner surface of which in the area of shear pins is limited by a holder, the cavity of which is communicated with the radial channel of the glass, while the hammer is temporarily fixed from displacements by a ball entering a smaller part of its spherical surface into a recess made in the body of the striker, and for the most part by a spherical surface into a through radial the anal is formed in the piston, and below the place of placement of the ball on the outer side of the piston at its through radial channel and on the inner side of the cage conical grooves are made with the possibility of placing part of the spherical surface of the ball in them when the pins are cut and the piston moves. 2 s.p. f-ly, 2 ill.

Description

The technical solution relates to pressure-activated shock mechanical fuses and can be used in the oil and gas industry.

A device for detonating the ignition head of a perforator, containing an explosive perforating device that fires when dropped from the wellhead of the rod (US No. 4804044, IPC EV 43/116, 02/14/89).

A device for actuating the ignition head of a perforator due to the kinetic energy of the impact of the rod discharged from the wellhead into the string of perforator pipes (GB No. 2076450 IPC E21B 43/116 from 1980).

A device is known for driving a perforator launched into a well on tubing containing a body and a shock mechanism and a detonation initiation unit placed therein, the body cavity being communicated through inclined holes in it with the well, and the detonation initiation unit is hydraulically isolated from the well by sealing elements, the percussion mechanism has a sleeve with a saddle for the ball discharged through the tubing string and a hammer placed inside the sleeve and held by The fixing unit is provided with a guide sleeve in the windows of which the rollers tangentially mounted interacting with the drummer through the recesses on its outer surface, the windows and recesses repeating the shape of the side surface of the rollers, the sleeve has grooves for the rollers to exit, and the fixing unit and the upper part are on the outside the guide sleeves are closed from the housing by a protective sleeve (RU 30389 U1, ЕВВ 43/1185, 06/27/2003).

A disadvantage of the known solutions is their unreliability, i.e. the possibility of accidental operation from objects that fell into the well cavity during tripping operations, and the inability to operate at low hydrostatic pressure in the well, and also not maintainability for reuse.

The closest known one is a fuse for perforated explosive equipment, comprising a body with an adapter, inside which a mechanical detonating device (MRL) based on a blasting explosive is placed, and a trigger mechanism including a body and a glass and a rod fixed relative to it, with the possibility of moving the cup and releasing the rod at the moment the fuse is actuated, and between the starting mechanism and the MRL an additional shock-proof fur is attached to them anism, which includes a body with a drummer fixed in it, a slider made in the form of a glass covering the body with a drummer, and a spring located between the bottom of the slider and the drummer, with the possibility of moving the slider, compressing the spring and releasing the drummer while the rod moves behind by cutting off the pins fixed from falling out by the spring ring. The rod may protrude beyond the end of the trigger mechanism housing to a height exceeding the amount of slide travel required to compress the spring to the working force and release the hammer.

The presence of a spring that is constantly in a pressed state, as well as a spring ring acting on the ends of the shear pins, reduces the reliability of the device as a whole, since the metal of a spring that is in a constantly pressed state has limitations on the loss of elastic properties. A spring ring in contact with the ends of the sheared pins can, during cutting, lead to the creation of additional friction force of the sheared ends along the sliding surface, which also reduces the reliability of the device. In addition, there is no possibility of regulating the force of cutting the pins depending on the pressure in the cavity of the tubing at the location of the perforating and explosive equipment, which also negatively affects the reliability of operation of the entire device.

The technical result of the claimed device is to increase the reliability and the possibility of its reuse (when replacing pins) by expanding the range of operation of the device when conducting perforated blasting on tubing.

This is achieved by the fact that the percussion device to the initiating head of the perforating explosive equipment contains a housing formed by interconnected upper and lower parts, the upper part of which is made in the form of a glass turned upside down with a through radial channel in its lateral surface, and the lower one in the form of a sleeve with an external annular stop and an internal annular piston displacement limiter, and a hammer, which is movably mounted in the lower part of the through vertical channel located in the piston cavity I, and in the glass between its inner cylindrical surface and the outer surface of the piston there is a cage with radial through holes formed for its height for shear pins of one standard size, coaxial radial through holes for shear pins formed in the piston, whose inner surface is in the area of the shear pins It is limited by a holder, the cavity of which is communicated with the radial channel of the glass, while the drummer is temporarily fixed from movement by a ball, a smaller part of it with a spherical surface into a recess made in the body of the striker, and for the most part a spherical surface, into a through radial channel formed in the piston, and conical grooves are made with the possibility of placement below the ball’s location on the outer side of the piston at its through radial channel and on the inside of the cage in them part of the spherical surface of the ball when cutting the pins and the movement of the piston. At the same time, to ensure reliability, the longitudinal shear pins are located in one vertical plane or evenly in vertical planes passing through the longitudinal axis of the device, and the vertical channel of the lower part of the housing can be closed by a cap in contact with the external annular stop of the sleeve.

The significance of the features is proved by the fact that all the features of the independent claim of the utility model formula are necessary and sufficient for the implementation of the indicated technical result.

In FIG. 1 shows a shock device to the initiating head of a perforating explosive equipment, sectional view.

In FIG. 2 shock device, top view.

The shock device to the initiating head of the perforating explosive equipment is mounted in the initiating hydraulic head, which is connected by means of a universal adapter for connection to the perforation system.

The shock device to the initiating head of the perforating explosive equipment comprises a housing 1 formed by interconnected upper and lower parts, the upper part of which is made in the form of a cup 2 turned upside down with a through radial channel 3 in its side surface. The lower part of the housing 1 is made in the form of a sleeve 4 with an external annular stop 5 and an internal annular limiter 6 for moving the piston 7. The hammer 8 is movably mounted in the lower part of the through vertical channel located in the cavity of the piston barrel 7. In the cup 2 between its inner cylindrical surface and the outer the surface of the piston has a ferrule 9 with radial through holes 10 formed along its height for shear pins 11 of the same size, coaxial with radial through holes 12 for shear pins, forming in the piston 7. The inner surface of the piston 7 in the area of the shear pins 11 is limited by the yoke 13. The cavity of the yoke 13 is in communication with the radial channel of the nozzle 2. The hammer 8 is temporarily fixed from moving by the ball 14, which includes a smaller part of its spherical surface in the recess made in the body impactor 8, and for the most part a spherical surface - into a through radial channel formed in the piston 7. Below the location of the ball 14 on the outside of the piston 7 at its through radial channel and from the inner side of the cage 9 s conical grooves 15 with the possibility of placing in them part of the spherical surface of the ball when cutting the pins and the movement of the piston. The vertical channel of the lower part of the housing 1 is closed by a cap 16 in contact with the outer annular emphasis of the sleeve.

The shock device is implemented in the form of a housing with a sleeve, a glass, a piston, a drummer, a clip with shear pins installed in it. The number of shear pins is calculated depending on the magnitude of the hydrostatic pressure in a given interval of perforation. The balls are installed in such a way that the drummer is securely fixed, which together with the installed shear pins eliminates premature operation of the device. The head is actuated by creating a pressure in the tubing cavity that exceeds the specified hydrostatic pressure by an amount corresponding to the number of shear pins installed, and, after creating excess pressure, the piston moves down along the cage and cuts the pins, while the balls holding the hammer move along the grooves, they release the hammer, which, under the influence of pressure, strikes the detonator of the pruning type.

When the head detonation device is triggered, the primary explosive charge detonates, which is accompanied by ignition of the intermediate detonator connected to the ignition cord of the perforator, the ignition cord transmits the blast wave to cumulative charges, during the explosion of which jets of explosive gas pass through the casing and penetrate the formation.

The technical and economic effect of the proposed solution is to increase the efficiency of perforating and blasting operations carried out on the tubing, due to the ability to perform a number of technological operations in one round trip without the need to lift a punch to install auxiliary equipment.

Claims (3)

1. The shock device to the initiating head of a perforating explosive equipment, comprising a housing formed by interconnected upper and lower parts, the upper part of which is made in the form of a glass turned upside down with a through radial channel in its side surface, and the lower one in the form of a sleeve with an external an annular stop and an internal annular piston displacement limiter, and a hammer, which is movably mounted in the lower part of the through vertical channel located in the piston barrel cavity, and in the barrel Between its inner cylindrical surface and the outer surface of the piston there is a clip with radial through holes formed for its height for shear pins of the same size, coaxial radial through holes for shear pins formed in the piston, the inner surface of which in the area of the shear pins is limited by a holder, the cavity of which communicated with the radial channel of the glass, while the striker is temporarily fixed from movement by a ball entering a smaller part of its spherical surface in a recess made in the body of the striker, and for the most part on a spherical surface, into a through radial channel formed in the piston, moreover, conical grooves are made below the ball on the outside of the piston at its through radial channel and on the inside of the cage, them parts of the spherical surface of the ball when cutting the pins and the movement of the piston. 2. The impact device according to claim 1, characterized in that the longitudinal shear pins are located in one vertical plane or evenly in vertical planes passing through the longitudinal axis of the device. 3. The shock device according to claim 1, characterized in that the vertical channel of the lower part of the housing is closed by a cap in contact with the outer annular emphasis of the sleeve.

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