RU45455U1 - DEEP REAGENT DOSING DEVICE IN A WELL WITH A DRIVE FROM A ROCKING MACHINE - Google Patents

Abstract

Refers to the field of oil production. The technical result consists in increasing the efficiency of the device by ensuring the accuracy of dosing, uniform supply of the reagent regardless of its density and viscosity and regardless of the pressure drop in the well. The device contains a container (K) 1 for the reagent, placed under the pump (not shown) and rigidly connected to it by means of a sealed cover (GK) 2 with a valve, and a dispenser consisting of a hollow cylinder (PC) 3, rigidly connected to To body 1 (KOR) 4 with the formation of a single system 5: K-KOR, made with the possibility of reciprocating movement, from the plunger (P) 6 and rod (W) 7, placed in KOR 4, and from restrictive elements (OE) 8 and 9 to limit the stroke of the reciprocating movement of the system 5. C 3 is rigidly fixed in the wells and by means of means 10 for fixing it (for example, by means of a self-sealing elastic packer). K 4 is made with an internal cavity 11 bounded by two (PR) 12 and 13. In the lower PR 12 (located on the side of the packer 10), channels 14 are made for passing the borehole fluid and gas and an axial channel 15 is made for passing Ш 7, which is rigidly connected with the packer 10, by means of the attachment 16. In the upper PR 13 (located on the K 1 side), a through axial hole 17 for passing P 6 is made. Part of the KOP 4 with the lower PR 12 is coaxially placed in the cavity C 3 with the possibility of reciprocating movement K 4 relative to the walls of C 3. In the end part and the walls Ax Ts 3 vertical 18 and radial 19 channels are made, respectively, to ensure communication of both it and the cavity 11 K 4 through channels 14 with the well. OE 8 and 9 are placed on Ш 7 at a distance from each other and act as limiters in turn, depending on the progress of system 5: K-KOR up

or down. While OE 8 is made with the possibility of contacting only with the lower PR 12, and OE 9 - only with the upper PR 13 when moving the system 5, respectively, up or down. Moreover, OE 9 still performs the function of a connecting unit for P 6 and W 7. P 6 has at least one metering groove 21 on its side surface. The free end of P 6 is located in the lower part of K 1 and is protected by a casing 22, which is installed with a gap to the body P 6 is rigidly connected to the upper PR 13 of KOR 4 and is hydraulically connected through the radial channels 23 to K 1.

Description

The utility model relates to the oil industry, in particular to devices for the extraction and downhole processing of oil by means of a dosed supply of liquid chemical reagents into it, and can be used for deep pump operation of wells in oil industry enterprises to prevent equipment corrosion, deposition of paraffin and salts, and the formation of persistent emulsions, reducing the viscosity of well production.

A well-known deep pump installation for oil production and downhole processing (Aut. St. USSR No. 894178, Cl. E 21 B 43/00, 1979), including a sucker rod pump located under the pump and a rigidly connected container for a chemical agent and a dispenser made in the form of a cylinder connected to the container with a plunger having metering grooves on the side surface, and the free end of which is located at the bottom of the chemical container. Moreover, the system: the container-cylinder is made with the possibility of reciprocating movement relative to the walls of the well, and the plunger is rigidly connected to the friction lamp, which serves as a means of rigid fixation of the plunger in the well.

The disadvantage of this installation is the lack of reliability when dispensing a reagent, especially viscous, which leads to a decrease in processing efficiency. This is due to the fact that due to design features (a small cycle of reciprocating movement of the system: container-cylinder), the known device can deliver only small doses of the reagent , which causes difficulties when working with viscous and high-density reagents.

Closest to the proposed device is a device for dosed supply of reagent into a well equipped with a sucker rod pump (Avt. St. USSR No. 1055859, Cl. E 21 B 43/00, from 1980), including placed under the sucker rod pump and rigidly connected with it a reagent container, and a dispenser, consisting of a hollow cylinder with spring-loaded pads for fixing it in the well, from a body rigidly connected to the container container, with the formation of a container-body system made with the possibility of reciprocating movement, while inside When the housing is placed with the plunger rod and the number of channels with valves, and limiter of the stroke of reciprocating movement of the system: container body.

The disadvantage of this known device is the complexity and, consequently, the low accuracy of the dosage of the reagent, especially with high viscosity, as well as the lack of reliability of the design, due to the large number of nodes difficult to manufacture (especially the case). All this leads to low dosing efficiency.

The technical result provided by the proposed utility model is to increase the efficiency of the device by ensuring the accuracy of dosing, uniform supply of the reagent regardless of its density and viscosity and regardless of the pressure drop in the well.

The specified technical result is achieved by the claimed device for the deep dosing of the reagent into the well with a drive from the rocking machine, including a reagent container located under the pump and rigidly connected to it and a dispenser consisting of a hollow cylinder, the end part of which is connected to its fixation means in the well, rigidly connected to the container body with the formation of the system: container-body, made with the possibility of return

translational movement, while inside the body there is a plunger with a rod, and from the limiter of the stroke of the reciprocating movement of the system: container-body, while new is that the body is made with an internal cavity filled in the process of running the borehole fluid and gas limited to two baffles, and on the side of the fixation means, a lower transverse baffle with channels for the passage of the borehole fluid and gas and with a through axial hole for passing the rod and providing a rigid connecting it with the fixing means, and on the container side, with the upper transverse baffle with a through axial hole for passing the plunger, while part of the housing with the lower transverse baffle is coaxially placed in the cylinder, in which the radial and vertical channels are made to ensure communication of both it and and the body cavity through the channels in the lower transverse baffle with the well, as a limiter of the reciprocating movement of the system: container body, the device contains n the distance from each other restrictive elements that act as limiters in turn, depending on the progress of the specified system up or down during its reciprocating movement, and each of them is made with the possibility of contact with one of the transverse partitions of the housing during such movement, while the free end a plunger having at least one metering groove on the side surface is located in the lower part of the container and provided with a casing fixed to the plunger with a gap rigidly connected to the top she transverse bulkhead housing and hydraulically connected to the container through the radial channels in the housing wall.

The total capacity of the grooves on the lateral surface of the plunger is equal to the required dose of reagent for one cycle of the reciprocating movement of the system: container-case.

The distance between the restrictive elements is greater than the length of the reciprocating movement of the system: container-body in one cycle.

Restrictive elements are made in the form of union nuts.

The restrictive element, made with the possibility of contacting with the upper transverse partition, is a junction of the plunger and the rod.

The restrictive element, made with the possibility of contacting with the upper transverse partition of the housing, is equipped with an elastic cuff to prevent spontaneous penetration of gas from the cavity of the housing into the container during the system: container-housing, down.

The reagent container is equipped with a sealed cap with a valve, through which it is connected to the pump.

A rigid connection of the rod with the means for fixing the cylinder in the well is made by means of a castellated nut.

As a means for fixing the cylinder in the well, the device comprises a self-sealing elastic packer.

The problem is solved by the following.

Due to the fact that the body is made with an internal cavity bounded by two partitions, it is possible to avoid the differences in the generated pressure in the well.

Due to the fact that a part of the casing with the lower transverse baffle is coaxially placed in the cylinder, in which the radial and vertical channels are made to ensure communication of both it and the cavity of the casing through the channels in the lower transverse baffle with the borehole, uniform exchange of the borehole fluid and gas medium with chemical reagent regardless of the viscosity and density of the latter.

Due to the fact that the device contains restrictive elements placed on the rod at a distance from each other, acting as limiters in turn depending on the progress of the system: container-body, up or down when it is reciprocating, and each of them is made with the possibility of contact with one of the transverse partitions of the casing during such a movement, the uncontrolled movement of the system is excluded: the container-casing and the uniform supply of the reagent is ensured regardless of pressure drops in the well.

Due to the fact that the free end of the plunger having at least one metering groove on the side surface is located in the lower part of the container, it is possible to fill the groove with reagent even with a minimal amount of it in the container, which ensures that the reagent is fully consumed.

Installation with a gap to the free end of the plunger of the casing, rigidly connected to the upper transverse partition of the housing, eliminates mechanical damage to the plunger, which increases the reliability of the device as a whole.

Due to the fact that the container is hydraulically connected to the plunger through radial channels in the casing wall, the possibility of settling and filtering of the chemical reagent has appeared.

Performing the total capacity of the grooves on the lateral surface of the plunger equal to the required dose of reagent for one cycle of the reciprocating movement of the system: container-case, provides the ability to accurately, given dosing of the reagent depending on its density and viscosity.

Due to the fact that the distance between the restrictive elements, made in the form of union nuts, is greater than the length of the reciprocating movement of the system: container-case, for

one cycle, an adjustable stroke of the system is ensured: container-body, relative to the plunger, depending on well conditions.

Due to the fact that the container for the reagent is equipped with a sealed lid with a valve, through which it is connected to the pump, spontaneous unreasonable gas bleeding is excluded.

Due to the fact that the rigid connection of the rod with the means for fixing the cylinder in the well is made by means of a castellated nut, the possibility of its relative axial displacement is eliminated and the reliability of fixation is increased.

Due to the fact that as a means for fixing the cylinder in the well, the proposed device contains a self-sealing elastic packer, it became possible to reliably fix the specified device in the casing at a given depth.

The proposed utility model is illustrated in the drawing, which shows a General view of the device in section.

The proposed device for the deep dosing of the reagent into the well driven by the pumping unit contains a container 1 for the reagent, placed under the pump (not shown) and tightly connected to it by means of an airtight cover 2 with a valve, and a dispenser consisting of a hollow cylinder 3, from rigidly connected to the container 1 of the housing 4 with the formation of a single system 5: the container-housing, made with the possibility of reciprocating movement, from the plunger 6 and the rod 7 located in the housing 4, and from the restrictive elements 8 and 9 for the ogre icheniya stroke reciprocating movement system 5.

The cylinder 3 is rigidly fixed in the well by means 10 for fixing it (for example, by means of a self-sealing elastic packer).

The housing 4 is made with an internal cavity 11 bounded by two baffles 12 and 13. In the lower transverse baffle 12 (located on the side of the packer 10), channels 14 are made for passing the well fluid and gas and an axial channel 15 is made for passing the rod 7, which is rigidly connected to the packer 10, by means of a mounting unit 16, for example, a castellated nut. In the upper transverse partition 13 (located on the container side 1), a through axial hole 17 is made for passing the plunger 6. A part of the housing 4 with the lower partition 12 is coaxially placed in the cavity of the cylinder 3 with the possibility of reciprocating movement of the housing 4 relative to the walls of the cylinder 3.

In the end part and the walls of the cylinder 3, respectively, vertical 18 and radial 19 channels are made to ensure communication of both it and the cavity 11 of the housing 4 through channels 14 to the well.

The restrictive elements 8 and 9 (they can be used with union nuts) are placed on the rod 7 at a distance from each other and act as limiters in turn depending on the progress of the system 5: container-case up or down. In this case, the restrictive element 8 is made with the possibility of contacting only with the lower transverse partition 12, and the restrictive element 9 is only with the upper transverse partition 13 when moving the system 5, respectively, up or down.

Moreover, the restrictive element 9 still performs the function of a connecting unit for the plunger 6 and the rod 7. And in the preferred embodiment, it is equipped with an elastic cuff 20 to prevent spontaneous penetration of gas from the cavity of the container 1 during the course of the system 5 down.

The plunger 6 has at least one metering groove 21 on the side surface (the number and size of the metering grooves

one-time dosing of the reagent can be regulated depending on its density and viscosity).

The free end of the plunger 6 is located in the lower part of the container 1 and is protected by a casing 22, which is installed with a gap to the body of the plunger, is rigidly connected to the upper transverse partition 13 of the housing 4 and is hydraulically connected through the radial channels 23 to the container 1.

The inventive device operates as follows.

As the rocking machine moves up, the tubing string is shortened. Upward movement of the system 5 takes place: the container body, until the lower transverse partition 12 rests in the restriction element 8. The metering groove 21 is in the cavity 11 of the housing 4 and the chemical reagent is withdrawn from the groove of the plunger 6 into the internal cavity 11 and, in turn, the grooves 21 are filled plunger 6 with gas. In the subsequent downward swing of the rocking machine (the device is shown in the drawing), the system 5 moves: the container-case, down to the stop of the upper partition 13 against the stop element 9, the gas is discharged from the groove 21 of the plunger 6 into the container 1 and filled into its own in turn, the reagent grooves 21 of the plunger 6 through the radial channel 23 of the casing 22. The gas transferred by the plunger 6 is used to replace the taken chemical reagent from the container.

When the rocking machine is operating and, accordingly, during the reciprocating movement of the system 5: container-body, the plunger 6 with the rod 7 remains stationary, due to the tight connection with the self-sealing packer 10. The cycle is repeated. In the process, the container 1 is filled with a chemical reagent using the valve of the sealed cover 2 and with its help, the gas is drained from the container 1.

Thus, the device for the deep dosing of the reagent into the well with a drive from the rocking machine ensures uniform

the supply of the reagent regardless of the density and viscosity of the reagent and regardless of the differences in the generated pressure in the well, thereby increasing the efficiency of the device.

Claims (9)

1. A device for deep dosing of a reagent into a well driven by a rocking machine, including a reagent container located under the pump and rigidly connected to it and a dispenser consisting of a hollow cylinder, the end part of which is connected to its fixation means in the well, and is rigidly connected housing container, with the formation of the container-housing system, made with the possibility of reciprocating movement, while inside the housing there is a plunger with a rod, and from the stroke limiter of the reciprocating connection of the container-body system, characterized in that the body is made with an internal cavity filled during operation with the borehole fluid and gas bounded by two transverse baffles, and on the side of the fixation means, a lower transverse baffle with channels for the passage of the borehole fluid and gas and a through axial hole for passing the rod and providing a rigid connection with the fixing means, and on the container side, an upper transverse partition with a through axial hole for the launch of the plunger, while part of the housing with the lower transverse baffle is coaxially placed in the cylinder, in which the radial and vertical channels are made to ensure communication of both it and the body cavity through the channels in the lower transverse baffle with the well, as a limiter of the reciprocating movement of the system container body, the device contains restrictive elements placed on the rod at a distance from each other, acting as limiters in turn, depending on the course of the specified systems s up or down during its reciprocating movement, and each of them is made with the possibility of contact with one of the transverse partitions of the housing during such movement, while the free end of the plunger having at least one metering groove on the side surface is located in the lower part container and is equipped with a casing installed with a gap to the plunger, rigidly connected to the upper transverse partition of the housing and hydraulically connected to the container through radial channels in the casing wall. 2. The device according to claim 1, characterized in that the total capacity of the grooves on the lateral surface of the plunger is equal to the required dose of reagent for one cycle of reciprocating movement of the container-case system. 3. The device according to claim 1, characterized in that the distance between the restrictive elements is greater than the length of the reciprocating movement of the container-body system in one cycle. 4. The device according to claim 1, characterized in that the restrictive elements are made in the form of union nuts. 5. The device according to claim 1, characterized in that the restrictive element, made with the possibility of contacting with the upper transverse partition, is a junction of the plunger and the rod. 6. The device according to claim 1, characterized in that the restrictive element, made with the possibility of contacting with the upper transverse partition of the housing, is equipped with an elastic cuff to prevent spontaneous penetration of gas from the cavity of the housing into the container during the container-housing system down. 7. The device according to claim 1, characterized in that the reagent container is equipped with a sealed cover with a valve, through which it is connected to the pump. 8. The device according to claim 1, characterized in that the rigid connection of the rod with means for fixing the cylinder in the well is made by means of a castellated nut. 9. The device according to claim 1, characterized in that as a means for fixing the cylinder in the well, it contains a self-sealing elastic packer.