SU1070300A1 - Apparatus for reverse cementing of casings - Google Patents

Abstract

1. DEVICE FOR REVERSIBLE CEMENTING OF COLUMNS COLUMNS, including a body with a saddle and a thrust element and a locking member made of a material with a density that is less than the density of the cement slurry, characterized in that, in order to increase the reliability of the device and eliminate the effect of the velocity flow, the displaced through the casing of the well fluid, it is supplied with a charge of explosive placed on the thrust element and the mechanism for undermining the charge of the explosive, and the locking member is connected with the thrust element In this case, the mechanism for exploding the explosive charge is made in the form of a container filled with thermo-inert gas, in which a piston is placed with a rod adapted to interact with the explosive charge. 2. The device according to claim 1, characterized in that the charge of the explosive is filled in the form of a cumulative torpedo placed between the shut-off organ and the stop (with a clear element and oriented towards the latter.

Description

The invention relates to the drilling of wells, in particular, to devices for their reverse cementing. A device is known for the reverse cementing of casing strings, including a housing and a sensor for detecting the density of the solution, placed in the bag of the casing 1. A disadvantage of the known device is the inability of the axial channel of the column to automatically shut off when the first portions of the cement slurry enter the bag. cementation quality. Closest to the present invention is a device for reverse cementing casing, comprising a body with a seat and a stop member, and a locking member made of a material with a density lower than the density of the cement slurry. The device already provides the ability to automatically shut off the casing axial channel (in its bag) with the arrival of the first portions of cement slurry 2. The disadvantage of this device is that the overlapping of the casing axial channel may be premature due to the effect of the velocity flow displaced through casing of borehole fluid, which also reduces the reliability of the device. The purpose of the invention is to increase the reliability of the device and eliminate the influence of the velocity flow of the well fluid displaced through the casing. The goal is achieved by the fact that a device for reverse cementing casing, including a body with a seat and a stop element and a stop member made of a material with a density lower than the density of the cement slurry, is provided with a charge of explosive placed on the stop element and a charge mechanism the explosive, and the shut-off element is connected with the stop element, the mechanism of explosive charge detonation is made in the form of a container filled with thermo-inert gas, in which A pore with a pistol adapted to interact with the charge of the explosive. In addition, the explosive charge is made in the form of a cumulative torpedo placed between the locking member and the thrust element and oriented towards the latter. The drawing shows the proposed device, a General view. The device consists of a column 1 of a housing 2 with a saddle 3, a stop element 4 and a closure member 5 made of a material with a density less than the density of the cement slurry installed in the bag. On the thrust element 4, an explosive charge 6 is placed, for example, in the form of a cumulative torpedo placed on the thrust element (or between the stop element 4 and the locking member 5). In this case, the cumulative torpedo is oriented towards the thrust element, the locking member 5 (to eliminate the influence of the velocity flow of the well fluid displaced through the casing string) is associated with the thrust element 4. The explosive charge has a mechanism of its detonation, which is made in the form of a thermoinert the gas of the container 7, in which the sprit 8 is placed with the rod 9, which is adapted to interact with the charge of the explosive 6. The device operates as follows. After installation of the device in the casing strap, the casing 1 is lowered into the well. During the descent of pipes. into the well, the well fluid passing through the stop element 4 and the saddle 3 fills the internal cavity of the casing string 1. After a predetermined depth is reached, the well is flushed and the specified volume of cement slurry is poured into the annulus. In this case, a portion of hot water may be pumped in front of the cement. The cement slurry pushes the well fluid, fills the annulus, and enters the bottom of the casing. During the entry of the cement slurry or portion of hot water into the internal cavity of the device, the thermal conditions around the thermal-inert gas in the container 7 change, with the result that the inert gas begins to expand. An increase in pressure inside the container 7 causes the displacement of the 8, the brush of which 9 interacts with the charge of the explosive 6 (cumulative torpedoes ;, the charge explodes (cumulative torpedoes) and destroys the stop element 4. Since the density of the closure body 5 is lower than the density of the cement slurry (and even the well fluid), it rises up and closes the flow area of the saddle 3- The annulus separates from the annular space and the cement slurry enters the string of pipes, stopping are technical and economic effect of the proposed device results from the Enhance reliability of its operation, eliminating 34.

premature response. The cementing process can also be used to accelerate the annular space, reduce the cementing of the casing strings by pressing the squeezing units and save money from the use of a cement plant device, which is 2000 rubles. for reduced prod.

1070300

Claims (2)

1. DEVICE FOR REVERSE CEMENTING OF CASING COLUMNS, including a housing with a saddle and a stop element and a locking member made of a material with a density lower than the density of the cement mortar, characterized in that, in order to increase the reliability of the device and eliminate the influence of the velocity flow displaced through the casing a wellbore fluid column, it is equipped with an explosive charge placed on the thrust element and a mechanism for detonating the explosive charge, and the locking element is connected to the thrust element, moreover, the mechanism of detonation of the explosive charge is made in the form of a container filled with thermo-inert gas, in which a piston is placed with a rod configured to interact with the explosive charge. 2. The device according to π. 1, characterized in that the explosive charge is _Λ made in the form of a cumulative torpedo, intermixed between the locking element and the persistent element and oriented towards the latter. g th 7 s SU ,,, 1070300