RU2449111C2 - Well bed isolation device - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: invention pertains to oil and gas industry and can be used for beds isolation in a well in the course of its casing. Device for beds isolation in a well includes hollow casing with radial hole and hollow shear pin in it, hydraulic packer, outer sleeve that forms cavity with the casing opposite its radial hole, spring-loaded element and device position switch made in a form of a sleeve with cam slot with sockets for pin connected by grooves. Cam slot has two additional sockets; operating element and cam slot code of position switch are performed with the possibility of reciprocal movement of operating element with device switching from operating position with extension of packer sealing element into position of packer disengagement from hydraulic action and then into operating position of pre-packering with extension of sealing element. Device position switch can be made in a form of a bushing with four cam slots symmetrically arranged along its generatrix, in 90°, with a pin in every slot, with the possibility of switch movement with rotation in relation to all four pins according to the code of its cam slot in the course of pressure increase and fall in the device. Operating element can be performed in a form of a sleeve or plunger-valve located in the housing of valve assembly that has a channel between plunger-valve and cavity located opposite the radial hole of the casing.

EFFECT: provision of higher reliability of packering through the possibility of annular space pre-packering after main packering and packer disengagement from hydraulic action.

4 cl, 5 dwg

Description

The invention relates to the oil and gas industry and can be used to isolate the layers in the well when it is attached.

A device for isolating layers in a well is known, including a hollow body with a radial hole, at least one blocked hollow shear pin, a hydraulic packer, a sleeve mounted on the body and forming an annular cavity with it against the radial hole of the body, and means for breaking the hollow shear pin (USSR Author's Certificate No. 1395809, class E21B 33/14, 05/15/1988).

The disadvantage of this device is its low reliability and manufacturing complexity.

It is also known a device for isolating formations in a well, including a hollow body with a radial hole, at least one, blocked by a hollow shear pin, a hydraulic packer, a sleeve, at least one installed on the body and forming a cavity with it against the radial hole of the body, a spring-loaded working sleeve located in this cavity and a device position switch interacting with it, made in the form of an annular sleeve with a figured groove along its generatrix, having sockets for a finger, is connected grooves, and a finger rigidly connected at one end to the housing and placed at the other end in the slot of the figured groove with the ability to move with rotation relative to the finger of the switch in accordance with the code of its figured groove when increasing and depressurizing the device, while the working sleeve is able to return - progressive movement with switching the device from the transport position to the working position with the expansion of the packer sealing element, to the position with the packer disconnected from the hydraulic air action and safety position against unforeseen increase in pressure in the well (RF Patent No. 2182957, IPC E21B 33/13, 2001).

A disadvantage of the known device is that it does not provide high reliability for performing packer work. This is due to the fact that after bringing the packer into working position with the expansion of the sealing element and subsequent disconnection of the packer from hydraulic influences, it is impossible to perform additional packing of the annulus in order to compensate for the stretching of the rubber-fabric sealing element.

The objective of the invention is to provide higher reliability of the implementation of the packer work by the possibility of additional packing of the annulus after the main packing and disconnecting the packer from hydraulic stress.

This object is achieved in that in a device for isolating formations in a well, including a hollow body with a radial hole, at least one, blocked by a hollow shear pin, a hydraulic packer, an external sleeve mounted on the body and forming a cavity with it against the radial hole of the body a spring-loaded working element located in this cavity and a device position switch interacting with it, made in the form of an annular sleeve with a figured groove along its generatrix, having sockets on d finger connected by grooves and a finger rigidly connected at one end to the body and placed at the other end in the slot of the figured groove with the ability to move with rotation relative to the finger of the switch in accordance with the code of its figured groove when increasing and relieving pressure in the device, while the working element made with the possibility of reciprocating movement with the switching of the device from the transport position to the working position with the expansion of the sealing element of the packer in the off position of the packer about hydraulic impact and the safety position against an unexpected increase in pressure in the well, it is new that the figured groove of the position switch of the device has two additional sockets connected by grooves, and the working element and the code of the figured groove of the position switch are made with the possibility of reciprocating movement of the working element with switching devices from the working position with the expansion of the packer sealing element to the position with the packer disconnected from hydraulic influences I, in the operating position dopakerovki with the extension of the sealing element.

The task is also achieved by the fact that the device position switch is made in the form of an annular sleeve with four figured grooves symmetrically arranged along its generatrix through 90 °, each of which has a finger, with the ability to move the switch with rotation relative to all four fingers in accordance with its code figured groove when increasing and depressurizing the device.

The task is also achieved by the fact that the working element is made in the form of a sleeve.

The task is also achieved by the fact that the working element is made in the form of a piston-valve, at least one valve assembly located in the housing, having a channel between the piston-valve and the cavity opposite the radial opening of the housing.

Figure 1 shows the device in the initial transport position (the working element is made in the form of a sleeve); figure 2 - the device in the initial transport position (the working element is made in the form of a piston-valve); figure 3 - the device in its working position during packing (or during additional packing) with the expansion of the sealing element; figure 4 is a section aa in figure 1; figure 5 is a view of the device along arrow B in figure 1. Where is the position of the switch 10 at the moment:

pos.21 - transport position,

pos.22 - after passing through the cementing plug device,

pos.23 - after depressurization in the column,

pos.24 - at the time of activation of the packer,

pos.25 - after pressure relief in the column,

pos.26 - at the time of activation of the packer during additional packaging,

pos.27 - after depressurization in the column,

pos.28 - with an unexpected increase in pressure (repair work in the well).

A device for isolating formations in a well (see FIG. 1) includes a hollow body 1 with a radial hole 2, at least one. This hole is blocked by a hollow shear pin 3 with a sealing ring 4.

The device has a hydraulic action packer (not conventionally shown in the drawing). An outer sleeve 5 is mounted on the housing. It forms an annular cavity 6 with the housing against the radial hole. There is a tool for the destruction of the hollow shear pin (not shown conditionally).

It can be made, for example, in the form of a cementing plug. In the annular cavity 6 there is a working element 7 with sealing rings 8. The working element 7 is spring loaded 9. In the annular cavity 6 there is also a position switch of the device 10. It interacts with the working element 7 and is made in the form of an annular sleeve with a figured groove 11 along its generatrix (figures 1, 5). Finger 12 is rigidly connected to the housing by one end thereof. In this case, the finger 12 is placed at its other end in the figured groove 11 of the position switch 10. In this case, the switch 10, its figured groove 11, the finger 12 and the working element 7 are made in such a way that it is possible to rotate the switch 10 relative to the finger 12 in accordance with code figured groove 11 (after the destruction of the hollow shear pin 3) and the reciprocating movement of the working element 7 with the switching device in its various positions.

The working element 7 can be made in the form of a sleeve located in the annular cavity 6 formed by the outer sleeve 5 and the housing 1 (figure 1). The working element 15 can also be made in the form of a piston-valve with o-rings 14 located in the housing 17 of the valve assembly having a channel 13 in the housing of the valve assembly 17 connecting the piston-valve 15 with a cavity 6 opposite the radial opening of the housing (FIG. 2). The housing 1 contains an outer annular groove 16 for transferring fluid from the cavity of the housing 1 into the cavity of the packer through the annular cavity 6 in the operating position (Fig.1-3). The position switch 10 has a figured groove 11 containing the upper and lower sockets 19 under the finger 12, interconnected by grooves 18 (figure 5). In this case, the grooves 18 and the nests 19 are offset relative to each other vertically and have edges 20 connecting the grooves made at an angle to the vertical. This embodiment of the figured groove 11 (with such edges and grooves) provides the ability to rotate the switch in the radial direction and move to a new position. Figured groove has eight sockets 19 for fixing the finger 12 in one of the eight positions 21-28 (figure 5), providing different positions of the device. Moreover, unlike the prototype, in which the figured groove of the switch has six sockets, in the patented design of the device there are two additional sockets. This provides the possibility of reciprocating movement of the working element with the switching of the device from the working position with the expansion of the sealing element of the packer to the position with the packer disconnected from hydraulic pressure, to the working position of the additional packing with the expansion of the sealing element. The position switch of the device 10 can also be made in the form of an annular sleeve with four figured grooves 11 symmetrically located along its generatrix through 90 °, in each of which a finger 12 is placed, with the possibility of movement with rotation relative to all four fingers of the switch in accordance with its figured code the groove when increasing and depressurizing the device (figure 4). This design of the switch does not allow its distortions during movements during operation and provides a more reliable switching of the device from one position to another.

The device operates as follows.

After the descent of the string (casing into the well or of the fill string to the zone to be isolated) with a long device, a cementing (separation) plug is let into the string. This plug cuts the hollow pin 3 and moves down to fit on the stop ring (not shown). When a cement plug (not shown) moves, the fluid from the cavity of the column under the action of excessive pressure through the hole of the destroyed hollow pin 3, compressing the spring 9, partially moves the working element 7 (15) and the position switch 10. In this case, the end of the finger 12 located in the figured groove 11 (or four fingers located in curly grooves), turns the switch 10 and sets it to position 22 (figure 5). In this position, the switch is located during the entire cementing time. In this case, there is no hydraulic communication with the packer, because the working element 7 (15) is mixed translationally in the annular cavity 6 to a limited distance, at which there is no possibility of liquid transfer from the cavity of the housing 1 into the packer cavity through the annular cavity 6 in the working position of the device.

O-rings 8 of the working element 7 (or working element 15) provide the necessary tightness of the device (figure 1, 2).

After the cementing of the well and isolation of the layers in the well, the pressure in the column and cavity of the housing 1 is removed (dumped).

The working element 7 (or working element 15) under the action of a compressed spring 9 provides the ability to rotate the switch 10 and takes position 23 (performs a reciprocating movement). With a repeated increase in pressure in the column, the working element 7 (15), compressing the spring 9, moves. In this case, the position switch 10 takes position 24.

In this case, an increased stroke of the working element 7 (15) occurs. Its upper end falls below the upper edge of the outer annular groove 16 of the housing 1 (Fig.3). This makes it possible to bypass fluid from the cavity of the housing 1 into the cavity of the packer through the annular cavity 6 and the opened longitudinal annular channel of the groove 16.

The fluid through the opened longitudinal annular channel 16 enters the cavity of the packer (its sealing element) and expands the sealing element of the packer. That is, the packer with its expansion of the sealing element is brought into operation.

After depressurization in the column (device casing), the working element 7 (15) under the influence of the spring 9, turning the position switch 10, again makes its return movement down, but to position 25 (Fig. 5). In this case, the upper end of the working element 7 (15) rises above the upper edge of the outer annular groove 16 and overlaps the longitudinal annular channel. The flow of fluid into the cavity of the packer stops.

In the case when it is required to perform additional packing of the annulus, which is designed to compensate for the stretching of the rubber-fabric sealing element of the packer, a repeated increase in the working pressure in the column (device case) is performed. In this case, the working element 7 (15) again moves, compressing the spring 9. In this case, the position switch 10 takes position 26 (figure 5).

When this happens again, an increased stroke of the working element 7 (15) and its upper end falls below the upper edge of the outer annular groove 16 of the housing 1 (Fig.3). This makes it possible to bypass fluid from the cavity of the housing 1 into the cavity of the packer through the annular cavity 6 and the opened longitudinal annular channel of the groove 16.

The fluid through the opened longitudinal annular channel 16 enters the cavity of the packer (its sealing element) and further expands the sealing element of the packer. In this case, the annular space is additionally packed, and thereby higher reliability of packer work is achieved.

After depressurization in the column (device case), the working element 7 (15) under the influence of the spring 9, turning the position switch 10, again makes its return movement downward, but to position 27 (Fig. 5). In this case, the upper end of the working element 7 (15) rises above the upper edge of the outer annular groove 16 and overlaps the longitudinal annular channel. The flow of fluid into the cavity of the packer stops.

With further unforeseen increases in pressure in the column (for example, during repair work in the well), a safety position of the device is provided. For this, axial movement of the position switch 10 to position 28 is provided (FIG. 5). In this position, the movement of the working element 7 (15) is limited. Its upper end does not reach the upper edge of the outer annular groove 16 of the housing 1. This ensures the reliability of the device, and it is insured against unexpected pressure increases in the column.

The advantages of a patented device for isolating formations in a well are as follows.

Provides a higher reliability of packer work due to the possibility of performing additional packing of the annulus using the same device. In addition, increasing the reliability of performing packer work is also achieved by the fact that the design of the device position switch provides a more smooth, without distortions, moving it in the axial and radial directions due to four symmetrically located grooves in which the fingers are placed.

Claims (4)

1. A device for isolating formations in a well, comprising a hollow body with a radial hole, at least one, blocked by a hollow shear pin, a hydraulic packer, an external sleeve mounted on the body and forming a cavity with it opposite the radial hole of the body, located in this the spring-loaded working element and the device position switch interacting with it, made in the form of an annular sleeve with a figured groove along its generatrix, having finger slots connected by grooves, and a pale c, rigidly connected at one end to the body and placed at the other end in the slot of the figured groove with the ability to move with rotation relative to the finger of the switch in accordance with the code of its figured groove when increasing and relieving pressure in the device, while the working element is made with the possibility of reciprocating movement with switching the device from the transport position to the working position with the expansion of the packer sealing element, to the position with the packer disconnected from hydraulic influences and fear the exact position from the unexpected increase in pressure in the well, characterized in that the figured groove of the position switch of the device has two additional sockets connected by grooves, and the working element and the code of the figured groove of the position switch are made with the possibility of reciprocating movement of the working element with the device switching from the working position with expansion of the sealing element of the packer, in the position with the packer disconnected from the hydraulic effect, in the working position of additional packing with p expansion of the sealing element. 2. The device according to claim 1, characterized in that the position switch of the device is made in the form of an annular sleeve with four figured grooves symmetrically located along its generatrix through 90 °, in each of which a finger is placed with the ability to move the switch with rotation relative to all four fingers in in accordance with the code of its figured groove when increasing and depressurizing the device. 3. The device according to claim 1, characterized in that the working element is made in the form of a sleeve. 4. The device according to claim 1, characterized in that the working element is made in the form of a piston-valve, at least one valve assembly located in the housing, having a channel between the piston-valve and the cavity opposite the radial opening of the housing.

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