RU97435U1 - DEVICE FOR SEPARATE OPERATION OF TWO LAYERS OF ONE WELL - Google Patents

Abstract

 1. A device for the separate operation of two layers of the same well, comprising a housing with channels, a pipe, a tubing string, a pump, a packer, a mechanism for the relative movement of the pipe and body, characterized in that the mechanism for the relative movement of the pipe and body is installed in the well under the pump, the pipe is equipped with channels that are able to communicate with the channels of the housing. ! 2. The device according to claim 1, characterized in that the mechanism for the relative movement of the housing and the nozzle is made in the form of a sealed actuator with a channel for fluid movement and a cable for control from the surface. ! 3. The device according to claim 1, characterized in that the mechanism for relative movement of the housing in the nozzle is made in the form of a sealed linear electric motor with a channel for the movement of fluid and with a cable for control from the surface. ! 4. The device according to claim 1, characterized in that the mechanism of relative movement of the housing in the nozzle is made in the form of a sealed solenoid with a cable for control from the surface.

Description

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

It is known "Device for the separate operation of two layers of the same well" (Patent No. 2255210 RU, from 2005.06.27), which contains a housing with a blank partition (plug) in the Central channel and radial channels, a pipe covering the body, the tubing string ( hereinafter abbreviated as: tubing), a pump, a packer, a mechanism for the relative movement of the nozzle and the housing, and a unit for docking the housing 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.

A disadvantage of the known analogue is that the preparation of the device for operation and the transition from the operation of one reservoir to the operation of another takes a lot of time and requires additional costs. This disadvantage is also due to the fact that after installing the device in the well, it is necessary to install a hydraulic sucker rod pump inside the tubing string. In addition, during the transition from the operation of one formation to the operation of another formation, it is necessary to dismantle the pump, install a device to create excess pressure, transfer the nozzle from one position to another, then dismantle the device to create excess pressure and reinstall the pump, which significantly increases production costs.

Another known “Device for the separate operation of two layers of one well” (Patent No. 80195 RU, dated July 28, 2008). The analogue contains a casing with a plug in the central channel and radial channels, a pipe covering the casing, tubing string, pump, packer, a relative movement mechanism for the pipe and casing, and a housing for docking the casing with the packer, the pump being a submersible centrifugal pump, and the pump motor enclosed in a casing having a cable sealing assembly, the relative movement of the nozzle and the housing is made in the form of a hydraulic cylinder mounted on the wellhead, the housing docking assembly with the packer is made in the form of pairs plunger-cylinder. This analogue is the closest to the technical problem being solved and therefore is taken as a prototype of the claimed utility model.

The disadvantage of the prototype is that the relative movement of the pipe and housing made in the form of a hydraulic cylinder is located at the wellhead, there is a need to use special equipment with complex installation when lowering the equipment into the well. Moreover, docking equipment with a packer requires precise adjustments. And when switching the fluid intake from the strata, the housing is moved relative to the nozzle by a hydrostation: through a hydraulic cylinder and an elevator pipe string, the length of which can reach several kilometers, which increases operating costs.

The technical task of the utility model is to reduce well operating costs.

The technical result is achieved due to the known device for separate operation of two layers of one well, containing a device for separate operation of two layers of one well, comprising a housing with channels, a pipe, a tubing string, a pump, a packer, a mechanism for the relative movement of the pipe and case, according to the utility model the relative movement of the pipe and housing is installed in the well under the pump, while the pipe is equipped with channels that can communicate with the channels of the housing, and the mechanism m of relative movement of the housing and the nozzle can be made in the form of a sealed actuator or in the form of a sealed linear electric motor with a channel for fluid movement and with a cable for control from the surface, or, as an option, in the form of a sealed solenoid with a cable for control from the surface.

The claimed device is intended for separate operation of two layers of the same well, separated by a packer. The upper layer is located above the packer, and the lower one under the packer.

The device is connected to the pump and located under it.

The pump along the pipe tubing lifts alternately the fluid from the strata at the mouth.

The essence of the utility model is illustrated by figures, which depict a device for separate operation of two layers of one well in cross section, and more precisely, the operating moments of the device, namely, the position of the housing relative to the nozzle:

figure 1 when taking fluid from the upper reservoir;

figure 2 when taking fluid from the lower reservoir.

A device for the separate operation of two layers of the same well (figure 1) contains a mechanism 1 for the relative movement of the housing 2 in the pipe 3, which is located under the pump 4.

The pipe 3 is made in the form of a cylinder and has channels 5, 6 made in such a way that they can communicate alternately with channels 7, 8, which are made in the walls of the housing 2. The order of communication of the channels depends on the development of the formation of the upper 9 or lower 10 well. In addition communicating channels are able to communicate with the longitudinal channel 11, made in the housing 2, and the channel 11 in the lower part is plugged with a plug 12.

In the device for separate operation of two layers of the same well, the channels 5, 6, 7, 8, as an option, are made radial. And as a mechanism 1 for the relative movement of the housing, sealed drives in the form of solenoids or linear electric motors or actuators can be used.

The relative movement mechanism 1 of the body is equipped with a cable 13, through which a command is sent in the form of an electrical signal from the wellhead to move the body 2 of the mechanism.

The pipe 3 is connected by a threaded connection to the body 14 of the device for relative movement of the body, and the body 2 of the mechanism is connected by a threaded connection to the hollow slider 15 of the device of the relative movement of the body, through which fluid flows to the pump 4. The packer 16 is installed between two layers 9, 10 of the well.

The operation of the device for the separate operation of two layers of one well.

On command from the mouth: "fluid intake from the upper layer" (Fig. 1), the mechanism 1 for the relative movement of the body through the hollow slider 15 will establish a downward movement of the body 2 of the mechanism with radial channels 7 opposite the radial channels 5 of the pipe 3 communicating with the upper layer 9. Liquid from the upper layer 9 will come to the pump 4 through the radial channels of the pipe and the housing, the longitudinal channel 11 of the housing 2, the hollow slider 15. The lower layer 10 is closed, since the radial channels 6 of the pipe 3 and the radial channels 8 of the mechanism 2 are offset relative to each other friend.

On command from the mouth: "fluid intake from the lower layer" (figure 2), the mechanism 1 for the relative movement of the body through the hollow slider 15 will set upward movement of the body 2 of the mechanism with radial channels 8, opposite the radial channels 6 of the pipe 3 communicating with the lower layer 10. Liquid from the lower reservoir will flow to the pump 4 through the radial channels of the nozzle and the housing, the longitudinal channel 11 of the housing 2, the hollow slider 15. The upper reservoir is blocked since the radial channels 7 of the housing 2 and the radial channels 5 of the nozzle 3 are offset from each other.

Thus, when moving the housing 2 of the mechanism up or down, its radial channels alternately communicate through the radial channels of the pipe 3 with the upper or lower layers and alternately direct the fluid flow from the layers along the longitudinal channel of the housing 11 through the hollow slider 15 to the pump 4.

The advantages of the claimed utility model over the prototype is to simplify the installation of equipment in the well, while there is no need to use a bulky hydraulic power station, the docking of equipment of which with the packer requires precise adjustments. There is no need to move the elevator column, the length of which can reach several kilometers, and the control system has also been simplified. Thus, the cost of well operation decreased.

Claims (4)

1. A device for the separate operation of two layers of the same well, comprising a housing with channels, a pipe, a tubing string, a pump, a packer, a mechanism for the relative movement of the pipe and body, characterized in that the mechanism for the relative movement of the pipe and body is installed in the well under the pump, the pipe is equipped with channels that are able to communicate with the channels of the housing. 2. The device according to claim 1, characterized in that the mechanism for the relative movement of the housing and the nozzle is made in the form of a sealed actuator with a channel for fluid movement and a cable for control from the surface. 3. The device according to claim 1, characterized in that the mechanism for relative movement of the housing in the nozzle is made in the form of a sealed linear electric motor with a channel for the movement of fluid and with a cable for control from the surface. 4. The device according to claim 1, characterized in that the mechanism of relative movement of the housing in the nozzle is made in the form of a sealed solenoid with a cable for control from the surface.