RU2386793C1 - Pass unit of detonation of shaped-charge perforator - Google Patents

Abstract

FIELD: oil-and-gas production.

SUBSTANCE: unit of detonation passing contains framework, adapter connector, detonating cord, booster, booster bushing which is implemented in the form of disk and cylindrical part with axial opening for placement of booster. Adapter connector allow by longitudinal axis through internal opening with cylindrical groove for location of bushing of booster and detonating cord. Unit of detonation pass is additionally outfitted by detonating cord, booster, booster bushing, bushing of framework. Boosters are installed on detonating cords, additional bushing of booster is implemented in the form of disk and cylindrical part with axial opening for location of additional booster and located in internal opening of framework bushing from the side of cylindrical groove at the end of framework bushing for location of disk. At the butt side of adapter connector it is implemented deepening forming inside it cylindrical guideway and at the end if framework bushing contacting to butt side of adapter connector it is implemented groove with external diametre equal to diametre of deepening. Additionally outside at the middle part of framework bushing it is implemented annular thickening which creates with framework bushing one unit.

EFFECT: reliability growth of operation of unit of detonation pass of shaped-charge perforator.

1 dwg

Description

The invention relates to a device for transmitting detonation of cumulative perforators.

Known transmission devices for the detonation of cumulative perforators (see, for example, the description of the invention to patent RU 2215127 ЕВВ 43/117, published October 27, 2003, the description of the invention to patent SU 1831561 ЕВВ 43/11, published July 30, 1993. Bull. No. 28), containing clutch, detonation cord, metal cladding, sleeve, located in the case of a cumulative perforator. The disadvantage of these devices perforators is not reliable enough, due to the design and implementation of the knock transmission units.

The closest analogue is a cumulative perforator detonation transmission device containing an adapter, detonation cord, booster, booster bushing, frame bushing (see, for example, the description of the patent for utility model RU 49894 Е21В 43/117, published on December 10, 2005).

The disadvantage of the device for transmitting detonation of a cumulative punch is the lack of reliability of the transmission of detonation due to a possible change in the gap between adjacent booster units, in particular due to insufficient fixation of the position of the frame sleeve.

The objective of the invention is to obtain a highly reliable site for the transmission of detonation of a cumulative perforator.

The technical result is expressed in increasing the reliability of the operation of the knock transmission unit of the cumulative perforator.

The essence of the detonation transmission unit of the cumulative perforator is characterized by a combination of essential features common with the closest analogue

(adapter, detonating cord, frame sleeve, booster, booster sleeve) and other than the closest analogue, namely

it is additionally equipped with a detonating cord, a booster, a booster bushing, a carcass bushing, while the boosters are mounted on detonating cords, the additional booster bushing is made in the form of a disk and a cylindrical part with an axial hole for placing an additional booster and is placed in the inner bore of the carcass bushing from the side of the cylindrical groove on the end of the sleeve of the frame to accommodate the disk, while on the end side of the adapter is made a recess, forming a cylindrical guide inside it, and at the end of the sleeve and a frame in contact with the end face of the adapter has a groove with an outer diameter equal to the diameter of the cavity and the outside of the middle portion of the carcass sleeve formed annular thickening constituting a carcass sleeve integrally.

The essence of the detonation transmission unit of the cumulative rock drill is illustrated in the drawing, which shows a view in longitudinal section along the axial line.

The knock transmission unit includes an adapter 1 connected to the housing of the cumulative perforator 2, detonating cords 3 and 4 with boosters 5 and 6 mounted on them, respectively. A recess is formed on the end side of the adapter 1, forming a cylindrical guide inside it, at the end of the sleeve of the frame 11 in contact with the end side of the adapter 1, a groove is made with an external diameter equal to the diameter of the recess, and an annular thickening is made on the outside of the middle of the sleeve of the frame 11, comprising with the sleeve of the frame 11 is one piece (figure 1).

The booster 5 is placed in the hub of the booster 7. The booster 6 is placed in the hub of the booster 8. The adapter 1 has a longitudinal axis through the inner hole with a cylindrical groove to accommodate the hub of the booster 8 and detonation cord 4. The cylindrical groove in the through hole of the adapter 1 corresponds to the size of the disk 10 of the sleeve booster 8. The booster bush 7 is made in the form of a disk 9 and a cylindrical part with an axial hole for placement of the booster 5. On the outside of the cylindrical part of the booster bush 7 there are annular flanges of a triangular ormy in section. The booster sleeve 8 is made in the form of a disk 10 and a cylindrical part with an axial hole for accommodating the booster 6. On the outer side of the cylindrical part of the booster sleeve 8 are annular beads of a triangular shape in cross section. The booster sleeve 7 is placed in the inner hole of the sleeve of the frame 11 from the side of the cylindrical groove at the end of the sleeve of the frame 11 to accommodate the disk 9 (see drawing). The sleeve of the frame 11 is located at the end of the frame 12, in which the cumulative charges are fixed.

In one embodiment of the booster bushings 7 and 8, longitudinal holes are made in the cylindrical part of each sleeve to accommodate electrical contacts 13 and 14 in the form of a bracket made, for example, of copper (see drawing).

Booster bushings 7 and 8 can be made of rubber.

The operation of the detonation transmission unit of the cumulative perforator is carried out in the following order. After the descent into the well and the installation of the perforator at a predetermined depth during descent, an electrical impulse is applied to the cable, which causes the detonating cord 4 to operate and the detonation cord to be transmitted to the detonating cord 3 sequentially through boosters 6 and 5.

The adapter 1 can be used repeatedly, the remaining parts of the knock transmission unit for single use.

The trouble-free and trouble-free operation of the claimed knot transmission unit for the cumulative rock drill is provided by the indicated features of the structural design of the sleeve of the frame 11 and the adapter 1.

In the adapter 1, a cylindrical guide surface is obtained for fitting a part of the carcass bushing 11. Landing of this connection provides sufficient alignment of the carcass bushing 11 and, accordingly, ensures alignment of the bushes of the boosters 7, 8, alignment of the boosters 5, 6 installed in them and provides the necessary clearance between the ends of the boosters 5, 6.

This simplifies the pairing of boosters 5, 6, which improves the reliability of the transmission of detonation.

Claims (1)

A knock transmission unit comprising a frame, an adapter, a detonating cord, a booster, a booster sleeve, which is made in the form of a disk and a cylindrical part with an axial hole for accommodating the booster, the adapter having a longitudinal axis through the longitudinal axis with a cylindrical groove for accommodating the booster sleeve and detonating cord, characterized in that it is additionally equipped with a detonating cord, booster, booster bushing, carcass sleeve, while the boosters are mounted on detonating cords, an additional boost bushing RA is made in the form of a disk and a cylindrical part with an axial hole for accommodating an additional booster and is placed in the inner hole of the carcass sleeve from the side of the cylindrical groove on the end of the carcass sleeve for placing the disk, and a recess is formed on the end side of the adapter, forming a cylindrical guide inside it, and at the end of the sleeve of the frame in contact with the end side of the adapter, a groove is made with an external diameter equal to the diameter of the recess, and on the outside on the middle of the sleeve of the sleeve an annular thickening constituting a carcass sleeve integrally.

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