RU2480571C2 - Device to install bridges in wells - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: modification of piston separator design, as a result of which the possibility of load increase at a logging cable is excluded as an elastic collar is separated, unconditional drainage of a sludge pump is carried out in the zone of bridge installation, and separation of a self-sealing collar is provided regardless of the casing string wall condition in the zone of bridge installation. The piston separator of the device is equipped with a pusher weight and a stop installed as capable of interaction in the lower position of the piston separator with a spacer bushing of a ball lock made in a hollow stem, balls of which are placed in a bore of a sliding bushing, which fixes the self-sealing collar.

EFFECT: using the proposed device makes it possible to considerably simplify technology of installation of cement bridges and to increase safety of works.

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Description

The invention relates to the oil and gas industry, and in particular to devices that provide work in oil and gas wells.

A device for installing bridges in wells is known, comprising a housing, a head, an air chamber with a piston and a pusher, a baffle bounded by upper and lower baffles with axial and radial holes, having a piston-separator in the upper part and filled with grouting material, an elastic tube installed under lower baffle (AS USSR No. 996718, MKI E21B 33/14).

This device allows you to deliver the grouting material to the installation area of the bridge, push the elastic plug into the casing of the well and emptying the baffle from the grouting material to the artificial bottom from the elastic plug.

The disadvantage of this device is that the grouting material, emerging from the choke, is in contact with the drilling fluid located in the well and mixed with it, and a layer of clay cake remains on the wall of the casing of the well, which prevents the grouting material from adhering to the casing, which significantly reduces strength and tightness of the resulting bridge.

A device for installing bridges in wells is known, comprising a housing, a head, an air chamber with a piston, a pusher and a baffle, a baffle filled with grouting material, with axial and radial holes, a piston-separator in the upper part, a baffle in the lower part with an axial bore for the rod , an elastic stopper, an annular piston with a rod installed in the transport position with the possibility of interaction with the elastic stopper and made hollow, a self-sealing cuff installed on the rod, placed on d elastic stopper and fixed relative to the hollow shaft (RF Patent №2049908, IPC E21B 33/14) - prototype.

Such a device allows delivering grouting material to the installation area of the bridge, pushing the elastic plug into the casing of the well, moving the device from transport to working position, emptying the baffle from the grouting material to the artificial bottom from the elastic plug, eliminating its mixing with the borehole medium and at the same time ensuring removal clay cake from the borehole wall in the area of the bridge installation.

However, after the device is put into working position, the grouting material is fed into the well string by lifting the device up with a wireline cable, on which it is lowered into the well. In this case, an additional load on the cable arises due to the interaction of the self-sealing cuff with the borehole medium and the casing wall. After emptying the baffle, it is necessary to further increase the load on the cable in order to separate the elastic cuff from the device. This operation is a source of additional load on the cable and is carried out using a jerk. It is associated with the risk of cable breakage or separation of the device from the cable in the absence of the necessary skills for working with the device for the logging operator, especially at large depths of wells. During the installation of the bridge, the self-sealing cuff of the device is in contact with the casing, providing removal of clay cake and the forced replacement of the borehole medium with grouting material.

In the case of poor-quality preparation of the well before installing the bridge or if it is necessary to install the bridge in the area of casing integrity failure, for example, in the area of the perforated string, the remains of the cementing material, sharp protrusions or foreign objects associated with the wall of the well may be in the contact zone. These circumstances can cause the self-sealing cuff to lock or cause loss of tightness, as a result of which the emptying of the baffle in the bridge installation area will become impossible. In case of loss of tightness, it is not possible at all to separate the self-sealing cuff before lifting the device to the surface. At the same time, there is a high probability of jamming of the cuff in any section of the wellbore, which significantly complicates the conditions for lifting the device and can lead to an emergency.

These shortcomings significantly reduce the reliability of the device and its operational capabilities.

The invention consists in the following.

A device for installing bridges in wells, comprising a housing, a head, an air chamber with a piston, a pusher and a baffle plate, a baffle filled with grouting material, with axial and radial holes and a piston separator in the upper part, a baffle in the lower part with an axial bore for the rod, an elastic stopper and a self-sealing cuff mounted on the stem, located above the elastic stopper and fixed relative to the hollow stem. The piston-separator of the device is equipped with a pusher load and an abutment mounted for interaction with the lower position of the piston-separator with a spacer sleeve of a ball lock located in the hollow rod of the annular piston, the balls of which enter the groove of the sliding sleeve fixing the self-sealing sleeve.

In this case, the end of the process of displacing the grouting material into the well will be accompanied by pressing the stop of the separator piston on the spacer sleeve of the ball lock, due to which the lock balls coming out of the groove of the sliding sleeve release the self-sealing sleeve without increasing the force on the wireline cable. In the case of locking the self-sealing cuff in the casing during the displacement of the grouting material, there is also no need to detach the device from the place of landing by increasing the force on the cable, since the grouting solution will still be removed from the choke under the action of the pusher load, which creates excess pressure in the choke and provides the displacement of cement slurry into the installation area of the bridge with the subsequent separation of the self-sealing cuff. The same sequence of operation of the device is guaranteed in case of loss of tightness of the self-sealing cuff, since in this case too, the piston-separator under the action of the pusher-load will displace the cement slurry from the choke, and the stop of the piston-separator when interacting with the spacer sleeve of the ball lock will release the self-sealing cuff and unhindered lifting of the device from the well.

This embodiment of the device allows to exclude an increase in the load on the logging cable when separating the elastic cuff, to carry out unconditional emptying of the baffle in the zone of installation of the bridge and to ensure the separation of the self-sealing cuff regardless of the state of the wall of the casing in the zone of installation of the bridge.

The claimed invention solves the problem of improving the reliability of the device for installing bridges in wells and expanding its operational capabilities by reducing the dependence of the result of using the device on specific conditions that occur in the well during its operation.

The use of the inventive device will significantly simplify the technology of installing cement bridges and increase the safety of work.

Figure 1 shows a diagram of the device in section.

Figure 2 shows the position of the functional nodes of the device at the time of its transition from the transport position to the working one.

Figure 3 shows the position of the functional nodes of the device at the time of separation of the self-sealing cuff.

The device consists of a head 1 with an explosive cartridge 2 installed in it, connected to a logging cable 3, fixed in the head 1. The head 1 is attached to the housing 4. The housing 4 has an air chamber 5, in which is placed a pin 6 with a hole 7 and a piston 8 with a pusher 9. The housing 4 is connected to the choke 10. having a radial hole 11. In the choke 10 there is a piston-separator 12 with a pusher load 13 and a stop 14. The choke 10 has an upper baffle 15 and a lower baffle 16, in which an annular piston 17 with a hollow by stock 18. On stock 18 is installed and the self-sealing sleeve 19 with a sliding sleeve 20 having a groove 21, which includes balls 22 of a ball lock 23 located in the hollow stem 18. The balls 22 are locked in the groove 21 with the spacer sleeve 24 with a groove 25. The sleeve 24 is held in the upper position by a spring 26, which abuts against the stopper 27 of the rod 18. The lower part of the rod 18 is hermetically sealed with an elastic stopper 28 located in the lower part of the choke 10. The choke 10 has a radial hole 29 located above the elastic collar 19 and is filled with grouting material 30. reprobes into the casing 31 of the well in which the drilling fluid 32 is located.

The operation of the device is as follows. The device is lowered on a wireline 3 into the casing 31 under the drilling fluid 32 in the lower part of the installation interval of the bridge. During the descent, the radial holes 11 and 29 provide pressure equalization in the cavity of the device above the piston 12 and under the piston 17. When the device reaches the installation site of the bridge, an electrical impulse is supplied through cable 3, which triggers the explosion cartridge 2. The pin 6 is destroyed by the explosion and the air hole 7 chamber 5 communicates with the space of the well. The hydrostatic pressure of the mud column 32 affects the piston 8, under which atmospheric pressure remains. The piston 8 moves down and pusher 9 pushes the piston-separator 12, which moves the grouting material 30. The movement of the grouting material 30 in the choke 10 causes the annular piston 17 to move down to the stop in the lower baffle 16. Due to this, the hollow rod 18 pushes into the casing the column 31 is an elastic stopper 28 and a self-sealing collar 19 that extend from the bottom of the choke 10. Then the wireline 3 is tensioned. This causes the device to move up. The self-sealing cuff 19 is carried up by the rod 18 moving with the device, and the elastic plug 28 remains in place, acting as an artificial face and cutting off the drilling fluid 32 from below. The movement of the self-sealing cuff 19 provides for the pistoning of the well. At the same time, a pressure drop is created above and below the collar 19, which enhances its interaction with the casing 31 and ensures that the casing 31 is cleaned of the mud cake 32 when the collar 19 is dragged along the casing. At the same time, the drilling fluid 32 enters the device cavity above the piston-separator 12 through the hole 11, causing, together with the load-pusher 13, to force the piston 12 to lower downward, extruding the grouting material 30 from the bobbin 10 through the hollow rod 18 and forcing it under a self-sealing sleeve 19, where the mud zone 32 is formed.

In the process of extruding the grouting material 30 from the baffle 10 under the self-sealing sleeve 19 when lifting the device and moving the sleeve 19 relative to the casing 31 to the height of the bridge installation, the tension force of the logging cable 3 remains constant. When the grouting material 30 is completely extruded from the baffle 10, the stop 15 of the piston 12 sits on the spacer sleeve 24 and squeezes it down by compressing the spring 26 under the action of the moving piston 12. The balls 22 of the ball lock 23 fall into the groove 25, freeing the sliding sleeve 20 and self-sealing the cuff 19 from being fixed on the rod 18. In this case, the self-sealing cuff 19 and the sliding sleeve 20 come off the landing on the rod 18 and remain in the casing 31 on the head of the installed bridge. This operation does not cause any increase in the load on the logging cable 3, and its end will be easily established by a significant reduction in the load on the cable 3. This allows you to judge the end of the installation of the bridge and the transition of the device to the transport position.

If during the extrusion of grouting material 30 from the baffle 10 when the cuff 19 is moved upward, the load on the cable 3 increases due to the locking of the cuff 19 in the casing 31, then in this case the elevator driver stops the cable 3 moving up without reducing its tension , and takes an exposure in time. At this time, the piston 12, under the influence of the weighting agent 13, continues to displace the grouting material 30 from the flap 10. The grouting material 30, leaving the flap 10, will enter the zone above the cuff 19 which stops in the casing 31, which compresses and passes the grouting material 30 . The cable 3 is held under tension until the load on cable 3 is reduced, which occurs after the cement material 30 is completely extruded into the casing 31 and the sleeve 19 is disconnected from the device by pressing the piston stop 14 — divide I'm 12, by the action of the load-pusher 13 on the spacer 24, the ball lock 23. This allows then to take the device out of the hole in the usual manner. If in the process of extruding the grouting material 30 from the baffle 10, a premature decrease in the tension force of the cable 3 occurs, this will allow to establish the loss of tightness of the cuff 19 as a result of its rupture or damage. In this case, the lifting speed of the device decreases to the passage of the lifting height of the bridge. The grouting material 30 will also be squeezed out of the baffle 10 under the action of the pusher load 13, which will enable the device to move to the transport position with the cuff 19 disconnected from the device, preventing possible complications when lifting the device with the cuff 19 unconnected.

After rising to the surface, the device is washed from the drilling fluid and the remains of cement material.

Before re-installing the bridge in the well, the explosive cartridge 2 and finger 6 are replaced, the piston 8 is raised to the upper position, and a new sleeve 19 is mounted on the stem 18 with a ball lock 23 and a sliding sleeve 20 is pressed in. The sleeve 19 is pressed together with a new plug installed on the rod 18 28 in the lower part of the choke 10, which is filled with grouting material 20. Then, a piston-separator 12 with a pusher load 13 and an emphasis 14 is installed in the choke 10 and connect it to the body 4.

Claims (1)

A device for installing bridges in wells, comprising a body, a head, an air chamber with a piston and a pusher, a choke filled with grouting material, with axial and radial holes and a piston-separator in the upper part, a partition in the lower part with an axial hole for the rod, an elastic stopper and a self-sealing cuff placed on the rod, placed above the elastic stopper and fixed relative to the rod, characterized in that the piston-separator is equipped with a pusher load and an abutment mounted actions at the lower position of the piston-separator with a spacer sleeve of a ball lock made in a hollow rod, the balls of which are placed in the groove of the sliding sleeve fixing the self-sealing cuff.

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