RU191707U1 - DEVICE FOR SEPARATE OPERATION OF LAYERS - Google Patents

Abstract

The invention relates to the oil industry, namely, downhole devices for separate operation of two layers of the same well, separated by a packer. The objectives of the utility model are to increase the reliability of the device, to provide the ability to switch the valve to connect the pipe space with the lower or upper formation. These tasks have been achieved due to the fact that the device for separate reservoir exploitation is located in the casing string and includes a housing the isolation of the layers from each other, the first channel hydraulically connected to the lower layer, the second channel hydraulically connected to the upper layer, the channels in the device end with seats located opposite each other in the internal channel, inside of which there is a control element made in the form of a spring-loaded double a valve mounted axially movable between the seats, characterized in that the double valve valves are rigidly connected by a rod in such a way that when one valve is completely closed Pan fully opens the other valve, and each valve spring biases its abutting against the annular projection formed in the internal bore. The springs are made with the same power and geometric characteristics. Between each spring and the annular protrusion in the inner channel there are nuts for adjusting the efforts of the springs depending on the required pressure at which one valve must be closed and the other valve opened. Seats and valves are made of abrasion resistant material. A packer is used as a means of isolating formations. The body of the device is made of stainless steel. 5 cp f-ly, 5il.

Description

The utility model relates to the oil industry, namely to downhole devices for separate operation of two layers of the same well, separated by a packer.

A device for separate operation of two layers of one well according to the patent of the Russian Federation for utility model No. 97435. The claimed device comprises a housing with channels, a pipe, a tubing string, a pump, a packer, a mechanism for the relative movement of the pipe and housing (hereinafter: the drive), according to a utility model, the drive is installed in the well under the pump, while the pipe is equipped with channels that can communicate with the channels housing, while as a drive can be applied sealed drives in the form of a solenoid or linear electric motor, or actuator. The device operates on command from the wellhead. When moving the case of the mechanism up or down, its channels alternately communicate through the channels of the nozzle with the upper or lower layers and alternately direct the fluid flow from the layers along the longitudinal channel of the body through the hollow slider to the pump. The disadvantage of this device is the presence of the drive and the need to supply energy to it, which greatly complicates the design.

A device for the separate operation of two layers of one well according to the patent of the Russian Federation for the invention No. 2255210 is known. The device comprises a housing with a blank partition (plug) in the central channel and radial channels, a pipe covering the housing, a tubing string (hereinafter abbreviated: tubing), a pump, a packer, a relative movement mechanism for the pipe and the housing, and a housing docking assembly with the packer. The housing is connected to the tubing string. The relative movement of the pipe and the housing contains a device for creating excess pressure, a pin mounted on the pipe, and a figured groove made on the outer surface of the housing. The docking assembly of the housing with the packer contains a stepped cylinder, the lower end of which is included in the packer, and the upper end abuts against the spring. A spring is installed between the end face of the stepped cylinder and the annular ledge of the nozzle. The communication of the tube space in which the hydraulic sucker rod pump is placed with the zone of the upper or lower reservoirs occurs when the position of the nozzle relative to the housing changes, for which an overpressure is created under the action of which the movable nozzle compresses the spring. After the overpressure has been relieved, the spring raises the nozzle, the pin of which interacts with the figured groove of the housing and changes the position of the nozzle relative to the housing, while opening the corresponding radial channels and, accordingly, the upper or lower formation communicates with the pump intake. The disadvantage of this device is the complexity of the design and maintenance.

A device for the separate operation of two layers of one well according to the patent of the Russian Federation for the invention No. 2435023. The invention relates to the oil industry, in particular to devices for separate operation of two layers of the same well, separated by a packer. Provides a reduction in the operating costs of the well during the separate operation of two layers without the need to move the lift column to operate the mechanism for the relative movement of the pipe and the housing. The device comprises a housing with radial channels, a nozzle, a tubing string with a pump, a packer, a mechanism for the relative movement of the nozzle and the housing. The nozzle is made with radial channels that can communicate with the radial channels of the housing, the packer is mounted on the nozzle between its radial channels, and the mechanism for the relative movement of the nozzle and the housing between the two extreme positions includes a relative movement device, a relative movement device body and a hollow relative movement device slider moreover, the mechanism for the relative movement of the nozzle and the housing is installed in the well under the pump, the nozzle is made in the form of cyl Indra and connected to the housing of the relative movement device, in turn connected to the pump, the housing being made with a longitudinal channel, sealed at the bottom and connected at the top to the hollow slider of the relative movement device, the cavity of the hollow slider being configured to communicate with reception pump. The relative movement of the nozzle and the housing can be made in the form of a sealed actuator, in the form of a sealed linear electric motor or in the form of a sealed solenoid. The disadvantage of this device is the presence of the drive and the need to supply energy to it.

A device for the separate operation of two layers of one well according to the patent of the Russian Federation for utility model No. 80195. The device comprises a housing with a plug in the central channel and radial channels, a pipe covering the housing, tubing string, pump, packer, a mechanism for the relative movement of the pipe and housing and the docking assembly of the housing with the packer. The pump is made in the form of a submersible centrifugal electric pump, and the pump motor is enclosed in a casing having a cable sealing assembly, the relative movement of the pipe and housing is made in the form of a hydraulic cylinder mounted at the wellhead, the housing docking assembly with the packer is made in the form of a plunger-cylinder pair. The hydraulic cylinder has a piston with a double-sided hollow rod through which the tubing string is passed and connected to it. The disadvantage of this device is the complexity of its design.

A device for the separate operation of two layers of one well according to the patent of the Russian Federation for utility model No. 65122. The device consists of a housing equipped with a blank partition and three rows of radial channels, one of which is below the blank partition, and the other two are higher. A curly groove is made in the lower part of the housing on the outer surface. A movable nozzle with an annular sampling forming an annular chamber and having a cylindrical bore with an annular ledge in the lower part is telescopically mounted on the housing. The locking pin at one end is rigidly connected to the movable pipe, and the other interacts with a figured groove. The movable nozzle partially enters the stepped cylinder, which is connected to the housing. A spring is located in the cylindrical bore between the end face of the annular ledge and the upper end of the cylinder. The lower end of the cylinder enters the packer body. A centralizer is installed in the upper part of the housing. The packer is made in the form of a two-sided folding elastic sleeve, which is pressed from below by an anchor assembly telescopically placed on the lower end of the packer body with the possibility of limited axial movement. The anchor assembly consists of a body with a cone in the upper part, tapering from top to bottom, below which a closed groove is made on the outer surface of the body. The closed groove is made in the form of interconnected longitudinal short and long sections, clips with spring centralizers and a guide pin, which is placed in the closed groove. On the cage along its circumference slips are installed, spring-loaded in the radial direction. The mating surfaces of the parts are provided with o-rings. In the central channel of the housing between the upper rows of radial channels is a check valve. The proposed device for the separate operation of two layers of the same well due to the design of the packer, made in the form of a two-way folding elastic sleeve, pressed down from the bottom by the anchor assembly, eliminates not tight fit of the device in the well, and the absence of a perforated liner reduces the metal consumption of the structure. The disadvantage of this device is the design complexity.

A device for the separate operation of two layers of one well according to the patent of the Russian Federation for utility model No. 70298. The device consists of a housing equipped with a blank partition and three rows of radial channels, one of which is below the blank partition, and the other two are higher. A curly groove is made in the lower part of the housing on the outer surface. A movable nozzle with an annular sampling forming an annular chamber and having a cylindrical bore with an annular ledge in the lower part is telescopically mounted on the housing. The fixing pin is rigidly connected to the movable nozzle at one end, and interacts with the figured groove at the other. The movable nozzle partially enters the stepped cylinder, which is connected to the housing. A spring is located in the cylindrical bore between the end face of the annular ledge and the upper end of the cylinder. The lower end of the cylinder enters the packer body, made in the form of two mutually directed self-sealing cuffs paired together. A centralizer is installed in the upper part of the housing. An anchor unit is rigidly attached from below to the packer, consisting of a body with a cone in the upper part, tapering from top to bottom, below which a closed groove is made on the outer surface of the body. The closed groove is made in the form of interconnected longitudinal short and long sections, clips with spring centralizers and a guide pin, which is placed in the closed groove. On the cage along its circumference, spring loaded spring loaded slips are installed in the radial direction. The mating surfaces of the parts are provided with o-rings. In the central channel of the housing between the upper rows of radial channels is a check valve. The disadvantage of this device is the design complexity.

A device for the separate operation of two layers of one well according to the patent of the Russian Federation for the invention No. 2580113 (prototype). The device comprises a housing, inside of which there is a regulating element made in the form of a spring-loaded shutter installed between the saddles, the springs pressing the shutter to the saddles located across the shutter stroke, which is pressed against the corresponding saddle by lateral deflection of the springs.

The tasks of creating a utility model are to increase the reliability of the device, providing the ability to switch the valve to connect the pipe space with the lower or upper layer.

The solution to these problems was achieved due to the fact that the device for separate operation of the reservoirs is located in the casing string and includes a housing, means for isolating the reservoirs from each other, a first channel hydraulically connected to the lower formation, a second channel hydraulically connected to the upper formation, channels in the device they end with seats located opposite each other in the internal channel, inside of which there is a regulating element made in the form of a spring-loaded double valve installed with axial movement between the seats, characterized in that the double valve valves are rigidly connected by a rod so that when one valve is completely closed, the other valve opens completely, each valve compressing its own spring, abutting against an annular protrusion made in the internal channel. The springs are made with the same power and geometric characteristics. Between each spring and the annular protrusion in the inner channel can be installed nuts to adjust the forces of the springs depending on the required pressure at which one must close and the other valve opens. Seats and valves are made of abrasion resistant material. A packer is used as a means of isolating formations. The body of the device is made of stainless steel.

The proposed technical solution has novelty and industrial applicability, i.e. all the criteria of a utility model. The novelty of the technical solution is confirmed by patent research. Industrial applicability is due to the fact that in the manufacture of a device for the separate operation of two layers, non-deficient materials and known technologies are used.

The essence of the utility model is illustrated in FIG. 1 ... 4, where:

in FIG. 1 shows the position of the valves, the device for separate operation of the reservoirs, at a pressure P _{1 of the} lower reservoir greater than the pressure P _{2 of the} upper reservoir.

in FIG. 2 shows the position of the valves, the device for separate operation of the reservoirs, at a pressure P _{1 of the} lower reservoir less than the pressure P _{2 of the} upper reservoir.

in FIG. 3 shows a device for separate operation of the reservoirs with nuts for adjusting the efforts of the springs.

in FIG. 4 shows the device for separate operation of the layers, upon receipt of the produced product from the lower layer of the well.

in FIG. Figure 5 shows the device for separate operation of the formations, upon receipt of the produced product from the upper formation of the well.

The device for separate operation of the strata is located in the casing string and consists of a housing 1, means for isolating the strata from each other 2, the first channel 3, hydraulically connected to the lower formation 4, the second channel 5, hydraulically connected to the upper formation 6, channels 3 and 5 the device ends with saddles 7 and 8, located opposite each other in the internal channel 9, inside of which there is a regulating element made in the form of a spring-loaded double valve 10, mounted with the possibility of axial movement between with seats 7 and 8, characterized in that the valves 11 and 12 of the double valve 10 are rigidly connected by a stem 13 so that when one valve is completely closed, the other valve is completely opened, and each valve 11, 12 draws its own spring 14 and 15, which abuts against the annular the protrusion 16 is made in the internal channel 9. The springs 14 and 15 are made with the same power and geometric characteristics. Between each spring 14, 15 and the annular projection 16 in the inner channel 9 can be installed nuts 17 to adjust the forces of the springs 14, 15 depending on the required pressure at which one must close and open the other valve 11, 12. Seats 7, 8 and valves 11, 12 are made of abrasion resistant material. As a means of isolating the layers 2, a packer 18 is used. The housing 1 of the device is made of corrosion-resistant steel.

Device separate operation of the layers works as follows. The housing 1 of the device is fixed on the casing string above and below the device, means for isolating the formations 2 are installed, for example, packers 18, they can be located at any distance from the device depending on the location of the productive formations 4, 6. During descent, the casing string is filled through the first channel 3, and the inner cavity of the valve. After descent to the required depth, the packer 18 is activated. The lower layers 4 and the upper 6 are isolated from each other. In case of higher pressure of the lower layer 4. Double valve 10 moves up. The valve 12 rises above the seat 8 opening through the channel 3 the passage of the produced product into the casing, and the valve 11 overlaps the passage section of the seat 7. The spring 15 is compressed relative to the annular protrusion 16 in the internal channel 9. In the case of a higher pressure of the upper formation 6. Double valve 10 moves way down. The valve 11 moves away from the seat 7 opening through the channel 5 the passage of the produced product into the casing, and the valve 12 overlaps the passage section of the seat 8. The spring 14 is compressed relative to the annular protrusion 16 in the inner channel 9. Between each spring 14, 15 and the annular protrusion 16 in the inner The channel 9 can be installed nuts 17 to adjust the forces of the springs 14, 15 depending on the required pressure at which one should be closed and the other valve 11, 12 open.

The application of the utility model allowed

1. Improve the reliability of the device.

2. Increase oil production.

3. Automatically switch the valve to the high pressure reservoir.

4. Simplify the management system.

5. Change the pump in case of failure without lifting the valve and replacing the packers.

6. Monitor by changing the switching pressure of the device.

7. Ensure a constant supply of produced product to the pump.

8. Adjust the switching pressure.

Claims (6)

1. The device for separate operation of the reservoirs is located in the casing string and includes a housing, a means of isolating the reservoirs from each other, a first channel hydraulically connected to the lower formation, a second channel hydraulically connected to the upper formation, the channels in the device end with saddles located opposite each other in the internal channel, inside of which there is a regulating element made in the form of a spring-loaded double valve mounted with the possibility of axial movement between the seats, This is due to the fact that the valves of the double valve are rigidly connected by a rod in such a way that when one valve is completely closed, the other valve opens completely, each valve compressing its own spring, abutting against an annular protrusion made in the internal channel. 2. The device for separate operation of the reservoir according to claim 1, characterized in that the springs are made with the same power and geometric characteristics. 3. The device for separate operation of the layers according to claim 1, characterized in that between each spring and the annular protrusion in the inner channel there are nuts for adjusting the efforts of the springs depending on the required pressure at which one valve must be closed and the other valve opened. 4. The device for separate operation of the layers according to claim 1, characterized in that the seats and valves are made of abrasion-resistant material. 5. The device for separate operation of the reservoirs according to claim 1, characterized in that a packer is used as a means of isolating the reservoirs. 6. The device for separate operation of the reservoirs according to claim 1, characterized in that the housing of the device is made of corrosion-resistant steel.

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