SU1027370A1 - Apparatus for closing-off borehole - Google Patents

Abstract

DEVICE FOR CUTTING. TIA Borehole, containing a housing with radial channels, inside which a spring-loaded bushing with a check valve is installed, and a retainer clamp in the bushing grooves to the casing, characterized in that, in order to expand its technological capabilities, the bushing above the non-return valve is made channels for the internal cavity of the housing with the well when moving to the lowest position. (L to sl oe

Description

11 The invention relates to the technique of well testing and can be applied during a sub-shaft ("{repair squash). A well-known deep device for blocking a squared beam, comprising a housing with a pair of heat pipe, has a return valve, a locking element and a retainer placed in the housing grooves bushings The closest to the invention is a device for blocking the trunk, comprising a housing with radial channels I1I, inside which a spring-loaded sleeve with an inlet valve and a retainer located in the slots of the sleeve and the casing 2. A disadvantage of the known devices is that they do not allow the cushion to supply liquid with a hitch to the well 1H} of the place where they are installed, i.e. to suppress the well of the removal of the device. iTb into the reservoir. The aim of the invention is to expand the technological capabilities of the usg} of the entity. This goal is achieved by ttels, which in the device for covering the trunk (jvanoshi, containing a housing with 1 mm radial valve), are installed inside the sleeve with a check valve, and the lock is The channels in the grooves of the inlet and housing in the sleeve above the non-return valve are made to communicate with the inner cavity of the housing with a bore, with a feather of the sleeve to the lowermost end of the sleeve. On the FM, 1, the device for blocking the wellbore at the time of passage of the borehole, the “bpiy view” in FIG. Option 2 is “1 and device at the time of passage of liquid from the well; in fig. 3 groove hub for retainer reamer. The device (Fig. I and 2) contains a housing with radial channels 2, inside sleeve I is installed sleeve 3, spring loaded 14} already 4. In the axial channel of sleeve 3, an o1 valve 5 is installed. In slots of sleeve 3 and housing 1 clamp 6 is installed. Seat 7 is made in case 1 below the surface of gate 3. In duct 3 above check valve 5, channels 9 are made for the inner cavity of hull I with a borehole (0) and moved inward. 3 to the lowest position. The device works as follows; To stop the operation of the well, a pulse of fluid pressure is applied to the well. Return valve 5 closes the axial channel of the sleeve 3, moving it down. The sleeve 3 (Fig. I) moves downward and the plugging fluid or reagent starts to flow into the well cavity below the device. Sleeve 3 (phi 2) moves down below channels 2 of housing I, and the plugging fluid or reagent begins to flow into the cavity of the well below the device. The decrease in pressure at the wellhead shows that the sleeve 3 is in its lowest position. After the pressure at the wellhead is released, the sleeve 3 under the spring 4 moves to the upper position against the stop surface 8 in the saddle 7, thus sealing the cavities of the well above and below the device. When this latch 6 occupies a position at the point In the groove of the sleeve (Fig. 3). IF it is required to once again ensure the flow of fluid from the well, pressure is again created at the wellhead, which moves sleeve 3 to the lower position. The latch 6 sequentially occupies the points G and A (Fig. 3} and fixes the open position of the device. The injection of the well killing solution and chemicals into the reservoir is made through the channels 2 in the housing 1. When this occurs, pressure builds up in the wellhead to ensure the sleeve 3 the extreme position. After killing the well, the device is extracted from it by an oy (in a normal way. With this phase, the device allows the use of & GO in the well with high reservoir pressures) to supply chemical agents to the surfactant the process of operation.

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FIG 3

Claims (1)

A DEVICE FOR OVERLAPING A WELL BORE, containing a housing with radial channels, inside which a spring-loaded sleeve with a check valve is installed, and a latch located in the grooves of the sleeve and the housing, · distinguish it by the fact that, in order to expand its technological capabilities, in the sleeve above the check valve made channels for communication of the internal cavity of the body with the well when moving to its lowest position. FIG. t a saddle 7 is beneath the surface of the shutter 8. In the sleeve 3 above the check valve 5 channels 9 are made for communicating the internal cavity 10 of the housing 1 from the well 5. bucket when moving the sleeve. 3 to the lowest position. The device operates as follows; To stop the operation of the well, a fluid pressure pulse is supplied from its mouth. The check valve 5 closes the axial channel of the sleeve 3, moving it down. The sleeve 3 (Fig. 1) moves down, and the kill fluid or reagent begins to flow into the cavity of the well below the device. The sleeve 3 (phi> 2) moves down below the channels 2 of the housing I, and the kill fluid or reagent begins to flow into the well cavity below the device. The decrease in pressure at the wellhead indicates that the sleeve 3 is in its lowest position. After relieving pressure at the wellhead ‘, the sleeve 3, under the action of the springs 4, moves to the upper position until the stopper surface 8 stops in the seat 7, thereby sealing the cavity of the well above and below the device. In this case, the latch 6 takes a position at the point B of the groove of the sleeve (Fig. 3). If you want to again ensure the flow of fluid from the well, again create pressure on the mouth, which moves the sleeve 3 to the lower position. The latch 6 sequentially takes the points G and A (Fig. 3) and fixes the open position of the device. The solution for killing the well and chemicals into the formation is supplied through channels 2 in the housing 1. At the same time, a pressure is created at the wellhead · to push the sleeve 3 to its lowest position. After killing a well, the device is removed from it in the usual way. Thus, the device allows its use in a well with high reservoir pressures, to supply chemicals and surfactants to the reservoir during operation. 1 1027370