SU735751A1 - Hydraulic perforator - Google Patents

Description

Hydraulic rotary hammer belongs to the equipment for opening wells. This device is designed to create the channels, cracks and cavities in the reservoirs in geological surveys when entering sulfur wells ex ⁵ pluatatsiyu by their perforations acidizing when geotehnologicheokih methods of mining operations, particularly when using the method of melting sulfur subterranean (PVA )

Practice shows that for the most efficient extraction of minerals from productive formations, it is necessary to obtain channels of considerable length from the axis of the well.

Devices for opening a well are known, in which liquid 20 [1] and [2D are used as a tool designed to create gaps, channels and cavities.

These devices contain a tubing string for supplying liquid to the working area, an anchor device. nozzle, feeder for slaughter.

Both devices do not provide long channels due to the limited movement of the tool into the destructible formation.

The closest; to the proposed technical essence and the achieved result is a device that contains a flexible hollow working body with a nozzle, a pipeline and an anchoring device for unfastening the housing relative to the walls of the well, as well as a latch for orienting the working body in the idle position [Z3 ·

In this device, the movement of the working body through the stationary body deep into the reservoir begins after the release of the latch from the nest in the stationary body by rotating the entire column of tubing. To move the working body deeper into the reservoir, the entire tubing string is fed down simultaneously with the arrival of work 10

7357 whose Fluids through the nozzle. After the end of the autopsy process, the column of pump and compressor pipes is lifted, removing the working element to the cavity. Then, by turning the entire column, a latch of the working body is introduced into the socket, thereby fixing the working body in the inoperative position.

The disadvantages of this unit include:.

1) the complexity of the design, insufficient reliability of the fixation of the working body in non-working positions because of. the need to rotate around the axis of the entire string of tubing and insufficient fixation of the deflector relative to the walls of the wells due to the use of the anchoring device of the proposed design;

2) the operation of this unit in a non-automatic mode;

3) the extremely limited possibility of linear movement in a destructible formation. ''

The aim of the invention is to simplify the design and increase reliability by providing functional autonomy to the working body.

_ This is achieved by the fact that the drive of the working body is made in the form of a float connected to the working body by means of rods, while the float is made in the form of a two-layer monolithic cylinder, in which the core is a high-strength material with a low specific gravity, and the shell is a material with high anticorrosion properties.

In addition, the float can be made in the form of a thin-walled closed vessel filled with gas under pressure equal to the pressure of the medium, ί In FIG. 1 depicts a hydraulic. perforator, cut; in FIG. 2 shows section AA (section of the drive (float) of a perforator) in FIG. one; in FIG. 3 - section BB (section of the perforator below the float, along the working body) in FIG. one.

The hydraulic hammer drill consists of a tubing string 1 fixed firmly at the wellhead of the diverter 2 by means of a coupling 3 connected to the tubing string 1, the number of working members 4 with nozzle 5 through rods 6 fastened to The device 7 float type. Gyray - the main line 8 is organized by a pipe string 1 ”The seal of the movable joint is designed as an elastic ring 9 located in a removable .35

4 block 10. In the initial, inoperative position, the internal cavity 8 of the tubing string 1 is filled with a liquid that can pass into the internal cavity of the working body 4. By means of the float-type device 7, the working body is constantly · in an extended position, i.e. not exposed to loss of stability.

The float type device can be made in two versions.

1. In the form of a two-layer monolithic cylinder; core 11 - Material with a low specific gravity, but sufficiently strong '3 _CX = 5O kgf / cm *; shell 12 material with high anti-corrosion properties.

2. In the form of a thin-walled closed vessel 13 filled with gas under pressure equal to the pressure of the medium, i.e.

P = p cr cf 'where P _p is the gas pressure;

G’r is the pressure of the medium.

• The nozzle 5, mounted on the working body 4, made with a shoulder, does not allow the body to move indefinitely to the upper position.

The punch works as follows. In the operating mode, from the pressure source through the internal cavity 8 of the pipe string 1, the working fluid under pressure enters the working body 4 and through the nozzle 5 further into the cavity, destroying it. Automatically together in the destruction of the reservoir 14, the working body 4 moves deep into the reservoir. Since the working body 4 is made of flexible material, moving inside the reservoir, it maintains a strictly oriented (rectilinear) position. The return stroke is carried out after depressurization in the hydraulic cavity 8 due to the ascent of the float type device 7. To produce a new cavity, the tubing string 1 is rotated by a • certain “angle” and the whole cycle is repeated.

Hydraulic punch allows you to automate the process of opening wells, significantly increase the reliability of the design, significantly increase the length of the channels due to the proposed scheme, which allows the working * body to be constantly in a stretched position, which means that it allows to increase the flow rate of the well several times.

The hydraulic rotary hammer is simple in design and therefore reliable in the '735751 operation. Contains a small number of elements; to ensure operation, only one column of tubing is required, which is fixedly mounted at the wellhead. ’5

This design of the punch allows you to partially automate the process of opening the well and more, with a simple device to obtain channels of considerable length. - 10

Claims (3)

Claim 1. Hydraulic hammer containing conductive housing ^15, a whipstock mounted on a column of tubing, a flexible hollow actuator, the drive of the working organ, characterized i in that, in order to simplify the design and improve the reliability by ensuring the autonomy of the working member, the actuator the latter is made in the form of a float connected to the working body by means of rods. 2. Rotary hammer p about π. 1, characterized in that, in it, the drive of the working body is made in the form of a two-layer monolithic cylinder, in which the core is a high-strength material with a low specific gravity, and the shell is a material with high acicorrosion properties. 3. Punch according to π. 1, characterized in that in it the drive of the working body is made in the form of thin *. a closed wall vessel filled with gas under pressure equal to the pressure of the medium.