RU2069741C1 - Device for mechanical perforation of wells - Google Patents

Abstract

FIELD: secondary opening of oil and gas wells by perforation. SUBSTANCE: device for mechanical perforation of wells includes body with channels, working pistons with puncturing units and additional piston with rods. Diameters of additional piston, rod and working pistons are made with ratios (1.5-10): 1:(1-6). EFFECT: provision of increase of pressure in working zone and treatment of opened channels with working fluid jets. 8 cl, 1 dwg

Description

 The invention relates to perforation of oil and gas wells, and more particularly to mechanical perforation.

A device for mechanical perforation of wells is known, including a housing and a drilling unit placed in it [1]
The disadvantage of this device is the complexity of its design, low productivity, failures in work.

The closest analogue of the invention is a device for mechanical perforation of wells, comprising a housing with channels for supplying a working fluid under pressure, working pistons placed in the housing and piercing units mounted on working pistons [2]
The disadvantage of this device is its low performance.

 The aim of the invention is to remedy these shortcomings.

This is achieved by the fact that the device for mechanical perforation of wells, including a housing with channels for supplying working fluid under pressure, working pistons placed in the housing and piercing units mounted on working pistons, is equipped with an additional piston with a rod installed in the housing with the ability to absorb working pressure fluid and a spring placed under the piston, and the diameters of the additional piston D _p , rod d _W and working pistons D _RP made with the ratios:
D _p d _w D _rp (1.5-10): 1: (1-6).

 In addition, working pistons with piercing units are located on one side of the housing; the case below the lowermost position is made with holes; the housing is made with filling holes located above the upper edge of the additional piston in its extreme lower position; a piston with a rod and a housing in their area are made with circulation channels for the onset of the working fluid to the working pistons; the piercing node is made with circulation channels for connecting the cavity of the housing with the outer space; working pistons are connected to the rod by a flexible connection; the rod or piston is made with non-return valves placed in the circulation channel.

 In the drawing, which shows a longitudinal section of the device, as well as a longitudinal section of the well.

The device comprises a housing 1, working pistons 2 located on one side of the housing 1, mounted on them piercing nodes 3, channels for supplying a working fluid 4, an additional piston 5 connected to the rod 6, a spring 7, through holes 8 in the housing 1 in the zone the lower part of the spring 7, the through holes 9 in the housing 1 in the zone of the lower position of the piston 5, the through circulation channels 10 in the piercing nodes 3, in the piston 5, in the stem 6 and the corresponding channels 11 in the housing 1, a flexible connection 12 connecting workers pistons 2 with a rod 6. In ver It node 3 are formed the supply channels 10 and the lower tool 3 is provided with discharge channels 10. The piston valve 5 is 18. The ratio of the diameters of the pistons 2 and 5 with respect to the diameter of the stem 6 formed preferably in a ratio of
D _p : d _w D _r.p (1.5-10): 1: (1-6)
The device operates as follows.

 The device is lowered into the well 13 on the tubing (NTK) 14, through the tubing from the wellhead 13 fluid 15 is supplied under pressure, act on the additional piston 5 and move it down to the stop, while moving the rod 6 and compressing the spring 7, rod 6 increase the pressure of the liquid and affect it on the working piston 2, moving them and tools 3 to perform perforation. After completion of the perforation, the fluid is released from the tubing 14 into the bore 13 through the through holes 9, the piston 5 with the rod 6 is returned to its original position by the spring 7, for which the fluid is passed from the bore 13 through the openings 8 into the area under the piston 5. By creating in the channel 4 rarefaction rod 6 return the working pistons 2 with piercing nodes 3 also in the initial position.

 When performing channels 10 and 11 in nodes 3 of the piston 5, rod 6, body 2, erosion of the perforation channels 16 in the oil reservoir 17 is performed, increasing their cross section and length. In this case, the channels 9 can not run or reduce their cross section. The erosion process is carried out after lowering the piston 5, rod 6, pistons 2 and the lowest position. In this position, the liquid under pressure from the tubing 14 enters through these channels 10 and 11 into the perforation channel 16, eroding it. At the same time, through the upper tool 3, the liquid enters the perforation channel 16, and through the lower tool 3 leaves the channel 16 into the well 13. After the erosion of the perforation channel 16 is completed, the liquid supply through the STC 14 is stopped and the piston 5 and the rod 6 are returned using the spring 7 to starting position. When this rod 6 moves the flexible connection 12 and with its help the pistons 2 are also moved to its original position. At the same time, the pistons 2 are moved by creating a vacuum in the channel 4 after the piston 2 closes the channel 11. Improving the return of the pistons 5 is also provided by the reverse flow of fluid under pressure and the installation of a check valve 18.

 After moving the working pistons 2 and 4 and the rod 6 to its original position, the device is ready to repeat the described operation in the next cycle.

Claims (8)

1. A device for mechanical perforation of wells, including a housing with channels for supplying working fluid under pressure, placed in the housing working pistons and piercing units mounted on the working pistons, characterized in that it is equipped with an additional piston with a rod mounted in the housing with the possibility of perception pressure of the working fluid, and a spring placed under the piston, and the diameters of the additional piston D _p , rod d _W and working pistons D _r.p. performed with the relations
D _p : d _w : D _r.p. (1.5-10): 1: (1 6).  2. The device according to p. 1, characterized in that the working pistons with piercing nodes are located on one side of the housing.  3. The device according to p. 1, characterized in that the housing below the extreme lower position of the piston is made with holes.  4. The device according to p. 1, characterized in that the housing is made with pouring holes located above the upper edge of the additional piston in its extreme lower position.  5. The device according to claim 1, characterized in that the piston with the rod and the housing in their area are made with circulation channels for the flow of working fluid to the working pistons.  6. The device according to paragraphs. 1 and 5, characterized in that the piercing unit is made with circulation channels for connecting the cavity of the body with annular space.  7. The device according to p. 1, characterized in that the working pistons are connected to the rod by a flexible connection.  8. The device according to p. 1, characterized in that the rod or piston is made with check valves placed in the circulation channel.