SU976029A1 - Apparatus for isolating hazard zones in wells - Google Patents

Description

The invention relates to the oil and gas industry, specifically to the drilling of wells and is intended to eliminate zones of complications in the wells (absorption of drilling fluid).

A device for isolating zones of complications in wells using drill pipes to inject the plugging mixture and push it into the absorbing formation 1 1.

A disadvantage of the known device is the danger of diluting the plugging mixture with flushing liquid.

Closest to the present invention is a device for isolating zones of complications in wells, including a housing, a cylinder rigidly attached thereto with a piston disposed therein, and sealing elements 2j.

The disadvantages of this device are the impossibility of reverse circulation of the flushing fluid in emergency cases (when there is a danger of device sticking) of the sealing elements, the formation of a plug from the filler due to the fact that the remnants of the diaphragm being destroyed partially block the hole in the drill pipe

The object of the invention is to improve the reliability of the insulation works by providing the possibility of backwashing.

Claims (1)

The goal is achieved by the fact that in a device for isolating zones of complications in wells, including a housing, a cylinder rigidly fixed on it with a piston placed in it, and sealing elements, the piston in the upper and lower parts is spring-loaded relative to the housing and made with upper and lower protrusions, against which the cylinder is made with counter projections, the diameter of the lower protrusions of the piston being less than the diameter of its upper projections, extending around the cavity and the cylinder and the cylinder, communicated with the space above the sealing elements mounted on a cylinder. On fig. 1 shows the device in the transport position in FIG. 2the same, in working position. The device consists of a housing t on which piston 2 is placed, spring-loaded springs 3 and C, cylinder 5 is attached to housing 1 by means of covers 6 and sealing elements 8 and 9 are placed to cylinder 5 pipes are attached to the threaded part of housing 1. In the upper suit, the piston is made t by projections 10, they have a diameter larger than the diameter of projections 11 in the lower part of the piston. Against these protrusions, the cylinder is made with counter projections 12 and 13. Between the projections of the cylinder and the piston form a closed annular cavity H, and above and below the projections are cavities a and 8. This is because the device should be installed a short distance from wellhead to ensure backwashing with small excess fluid pressures (no more than 20-30 kgf / cm, preservation of cement stone behind the column) and at the same time, this device should be activated when the pressure in the zone under the sealing elements rises to 100 kgf / see and above for optimal insulation conditions. Solving these problems by fitting a smooth piston is not always possible. This is due to the fact that the movement of a piston 2 made in the same diameter with different pressure drops must be accompanied by alternating compression of the springs 3 and, in this case, made of a bar of different diameter. Preliminary calculations show that the upper spring 3 should be made of large diameter rods, which represents almost unsolvable technological difficulties. The goal can be achieved by installing a piston 2 made with two protrusions of different diameters: the protrusion of a large diameter is rotated in the direction of the smaller one. pressure, and vice versa, the protrusion of smaller diameter is turned in the direction of greater pressure and spring-loaded springs of the same rigidity. The device works as follows. After it is installed on the pipes in the cased suit of the well under the static level of the liquid filling the well, to a depth of about 3,200 m, the absorption zone is filled through the open end of the pipe. Dilution of the plugging mixture does not occur for the reason that the proposed disconnecting device cuts off with self-sealing sealing elements 8 and 9 the suit of the washing liquid column, the hydrostatic pressure of which is equal to the difference between the hydrostatic pressure of the plugging mixture and the washing liquid in the interval between the end of the drill pipe and roof absorbing horizon. Also, the hydraulic fracturing will not occur when the plugging mixture is injected into the absorbing reservoir, because when the pressure rises, it will be disconnected1 (it will use the device (for example, above 100 kgf / cMi, which the diameter of the piston 2 is calculated and the compression force of the spring 3) will move up and the cavity 6 will be communicated with the cavity a through the annular cavity B. Through the formed channel (zone 6, the annular space between the piston 2 and the sleeve 5, zone o) the liquid from the space under the sealing elements will enter the space above the seal elements, thereby lowering the injection pressure. In some cases, when the zones are filled, they may need to be back flushed. The fluid injected under pressure into the annulus, through the holes in the lid 6, enters the cavity A. When a certain slight pressure is reached, the piston 2 will move downward while compressing the spring, Cavity a communicates with the cavity c and the pumped fluid will flow into the space under the gasket along the formed hydraulic channel. ny elements. After the end of the operation of pouring the absorption zone, the tool together with the uncoupling device is retrieved to the surface. For secondary use of the device, no replacement of any parts and a strap is required: processing, i.e., the product is reused. In addition, the presence of self-sealing elements, by means of which the annular space is sealed, greatly simplifies the use of the Bcerq device as a whole, since no packing operations are required to seal the well. Isolation of the absorbing formation is carried out automatically at a pressure drop in the zones above or below the sealing elements. The technical and economic effect of the application of the present invention is to increase the reliability and safety of the operation to eliminate the absorption, to save money and stopping materials there. Claims of the Invention A device for isolating zones of complications in wells, including a housing. a cylinder rigidly fixed thereto with a piston disposed therein, and sealing elements, characterized in that, in order to increase the reliability of the insulation work by providing the possibility of performing backwashing, the piston in the upper and lower parts is spring-loaded relative; but the body and is made with upper and lower projections against which the cylinder is made with counter-protrusions, and the diameter of the lower protrusions of the piston is smaller than its diameter. the upper protrusions forming a cavity with the housing and the cylinder, communicated with the space above the sealing elements mounted on the cylinder. Sources of information taken into account with the expertise 1.Mishchevich V.I. Hydrodynamic studies absorb the layers and methods of their isolation. M., Nedra,. 93-112. 2, USSR author's certificate f, cl. E 21 V 33/12, 1973 (prototype),