CN210598872U - Interlayer backwashing sealing pipe, top backwashing sealing pipe and water injection pipe column - Google Patents

Abstract

The utility model provides an interlayer backwashing sealing pipe, a top backwashing sealing pipe and a water injection pipe column, relating to the technical field of well completion; the interlayer backwashing sealing pipe comprises a base pipe and a backwashing pipe, and an annular space is reserved between the base pipe and the backwashing pipe; a control channel is formed in the body of the backwashing pipe, one end of the control channel is communicated with the oil well annulus, the other end of the control channel is communicated with the base pipe, and the control channel is communicated with the annulus space through an outlet; a liquid outlet is formed in the backwashing pipe, and the liquid outlet and the liquid injection port are positioned on two sides of the packer; a valve core is arranged in the control channel, and the valve core can block the inlet and the outlet when water is injected; when backwashing works, the valve core can block the liquid injection port. The top backwash seal includes an inter-layer backwash seal and an anchor. The water injection pipe column comprises an interlayer backwashing sealing pipe, a top backwashing sealing pipe, a plurality of packers and a plurality of sieve pipes. The interlayer backwashing sealing pipe, the top backwashing sealing pipe and the water injection pipe column achieve the technical effect of completing backwashing without lifting the pipe column.

Description

Interlayer backwashing sealing pipe, top backwashing sealing pipe and water injection pipe column

Technical Field

The utility model relates to a well completion technical field particularly, relates to backwash sealing tube between layer, top backwash sealing tube and water injection tubular column.

Background

After the oil field is put into development, the energy of an oil layer is continuously consumed along with the increase of the exploitation time, so that the pressure of the oil layer is continuously reduced, underground crude oil is greatly degassed, the viscosity is increased, the yield of an oil well is greatly reduced, even the injection and production stop are carried out, and a large amount of dead oil is remained underground and cannot be extracted. In order to make up for the underground deficit caused by the production of crude oil, the pressure of an oil layer is maintained or improved by adopting a mode of injecting water into an oil field, so that the high and stable yield of the oil field is realized, and the higher recovery ratio is obtained.

However, backwashing is needed after a period of operation, and the water injection pipe column in the prior art must be lifted up to complete backwashing, and the lifting up of the pipe column causes failure of the packer, thereby increasing backwashing cost and backwashing time.

Therefore, it is an important technical problem to be solved by those skilled in the art to provide an inter-layer backwash seal pipe, a top backwash seal pipe and a water injection pipe column which can accomplish backwash without lifting the pipe column.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an interlaminar backwash sealing tube, top backwash sealing tube and water injection tubular column to alleviate and need lift the technical problem that the tubular column just can accomplish the backwash among the prior art.

In a first aspect, the embodiment of the utility model provides an interlayer backwashing sealing pipe, which is used together with a packer and comprises a base pipe and a backwashing pipe sleeved outside the base pipe, wherein both ends of the backwashing pipe along the length direction are hermetically connected with the base pipe, and an annular space for backwash liquid to flow is reserved between the base pipe and the backwashing pipe;

the body of the backwashing pipe is provided with a control channel, one end of the control channel is communicated with the oil well annulus through an inlet, the other end of the control channel is communicated with the base pipe through a liquid injection port, the control channel is communicated with the annulus space through an outlet, and the outlet is positioned between the inlet and the liquid injection port;

a liquid outlet for discharging backwash liquid is formed in the backwash pipe, and the liquid outlet and the liquid injection port are located on two sides of the packer;

a valve core is arranged in the control channel, and when the water injection work is carried out, the valve core can block the inlet and the outlet under the action of hydraulic pressure from the liquid injection port; when backwashing is operated, the valve core can block the liquid injection port under the action of hydraulic pressure from the inlet.

In combination with the first aspect, an embodiment of the present invention provides a possible implementation manner of the first aspect, wherein a backstop is disposed in the annular space, and the backstop is used for preventing liquid in the oil well annulus from flowing into the control channel through the liquid discharge port.

With reference to the first aspect, embodiments of the present invention provide a possible implementation manner of the first aspect, wherein the check member includes an elastic member and a piston connected to the elastic member;

the inner wall of the piston is in sliding seal with the outer wall of the base pipe, and the outer wall of the piston is in sliding seal with the inner wall of the backwashing pipe;

when the water injection works, the piston is positioned between the outlet and the liquid outlet, and when the backwashing works, the liquid outlet is positioned between the outlet and the piston.

With reference to the first aspect, an embodiment of the present invention provides a possible implementation manner of the first aspect, wherein a limiting block for limiting a position of the piston is disposed in the annular space, and a top of the piston can abut against a bottom of the limiting block;

the limiting block is positioned between the outlet and the liquid outlet.

In combination with the first aspect, an embodiment of the present invention provides a possible implementation manner of the first aspect, wherein a through hole communicated with the liquid injection port is provided on a side wall of the base pipe, and the through hole is not communicated with the annular space.

In combination with the first aspect, an embodiment of the present invention provides a possible implementation manner of the first aspect, wherein a sealing element adapted to the packer is disposed on an outer wall of the backwash pipe, and the sealing element is located between the inlet and the liquid discharge port.

In combination with the first aspect, embodiments of the present invention provide a possible implementation manner of the first aspect, wherein the number of the sealing elements is multiple, and the multiple sealing elements are arranged along an axial interval of the backwash pipe.

In a second aspect, embodiments of the present invention provide a top backwash seal pipe, comprising the interlayer backwash seal pipe and an anchor connectable to a packer;

the anchor is arranged on the outer wall of the backwashing pipe and is positioned between the inlet and the liquid outlet.

In a third aspect, an embodiment of the present invention provides a water injection pipe string, including the top backwash seal pipe, the inter-layer backwash seal pipe, a plurality of packers, and a plurality of screens;

a plurality of packers are arranged in the oil well at intervals from top to bottom, and a sieve tube is arranged between every two packers;

the lower part of the top backwashing sealing pipe is connected with the interlayer backwashing sealing pipe, the interlayer backwashing sealing pipe and the interlayer backwashing sealing pipe are connected through a water injection pipe, and the outer wall of the interlayer backwashing sealing pipe and the outer wall of the top backwashing sealing pipe are both in sealing connection with the inner wall of the packer.

In combination with the third aspect, embodiments of the present invention provide a possible implementation manner of the third aspect, wherein the number of the above-mentioned inter-layer backwash sealing pipes is plural, and plural inter-layer backwash sealing pipes are sequentially connected in series under the top backwash sealing pipe, and two adjacent inter-layer backwash sealing pipes are connected through the water injection pipe.

Has the advantages that:

the utility model provides an interlayer backwashing sealing pipe which is used together with a packer and comprises a base pipe and a backwashing pipe sleeved outside the base pipe, wherein both ends of the backwashing pipe along the length direction are hermetically connected with the base pipe, and an annular space for circulating backwashing liquid is reserved between the base pipe and the backwashing pipe; the body of the backwashing pipe is provided with a control channel, one end of the control channel is communicated with the oil well annulus through an inlet, the other end of the control channel is communicated with the base pipe through a liquid injection port, the control channel is communicated with the annulus space through an outlet, and the outlet is positioned between the inlet and the liquid injection port; a liquid discharge port for communicating the annular space with the annular space of the oil well is formed in the backwashing pipe, and the liquid discharge port and the liquid injection port are positioned on two sides of the packer; a valve core is arranged in the control channel, and when the water injection works, the valve core can block the inlet and the outlet under the action of hydraulic pressure from the liquid injection port; during backwashing, the valve core can block the liquid injection port under the action of hydraulic pressure from the inlet.

When in use, firstly, the interlayer backwashing sealing pipe extends into a well and is connected with a packer; when the water injection work is carried out, a worker injects water into the backwashing pipe, the water in the backwashing pipe enters the control channel from the liquid injection port, and then the valve core is pressed to move so as to block the outlet and the inlet, so that the water injection layers separated by the packer cannot be communicated when the water injection work is carried out; when the backwash work is carried out to needs, the staff pours into backwash liquid into in the oil well annular space, backwash liquid enters into control passage from the entry in, the case of backwash liquid in can the drive control passage shifts up, make the case shutoff plug up annotate the liquid mouth, make backwash liquid can not follow control passage and directly enter into the parent tube in, but flow in annular space from the export, then keep away from the leakage fluid dram of export one end from annular space and discharge, and the entry is located the top of packer, the leakage fluid dram is located the below of packer, consequently backwash liquid can pass the packer, make backwash liquid can reach the oil well bottom through such setting and discharge the oil well from backwash intraductal, consequently need not the staff and lift the backwash sealing tube when carrying out backwash work.

The utility model provides a top backwashing sealing pipe, which comprises an interlayer backwashing sealing pipe and an anchoring piece which can be connected with a packer; the anchor is arranged on the outer wall of the backwashing pipe and between the inlet and the liquid outlet. The top backwash seal pipe has the advantages described above over the prior art and will not be described in detail here.

The utility model provides a water injection pipe column, which comprises an interlayer backwashing sealing pipe, a top backwashing sealing pipe, a plurality of packers and a plurality of sieve pipes; a plurality of packers are arranged in the oil well from top to bottom at equal intervals, and a sieve tube is arranged between every two packers; the top backwashing sealing pipe and the plurality of interlayer backwashing sealing pipes are sequentially arranged from top to bottom and are connected with each other through the water injection pipe, and the interlayer backwashing sealing pipe and the top backwashing sealing pipe are connected with the packer. The water injection string has the advantages compared with the prior art, and the details are not repeated here.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a cross-sectional view of an interlayer backwashing sealing pipe provided by an embodiment of the present invention;

FIG. 2 is a cross-sectional view of a top backwash seal tube provided in an embodiment of the present invention;

FIG. 3 is a schematic view of the connection between the packer and the screen in the water injection string in the oil well according to the embodiment of the present invention;

FIG. 4 is a schematic view of a connection between a top backwash seal pipe and a plurality of inter-layer backwash seal pipes in a water injection string according to an embodiment of the present invention;

fig. 5 is a schematic view of a water injection string provided in an embodiment of the present invention;

fig. 6 is a schematic structural diagram of a valve core in an interlayer backwashing sealing pipe provided by the embodiment of the present invention.

Icon:

100-base pipe; 110-a via;

200-a backwash tube; 201-inlet; 202-an outlet; 203-liquid injection port; 204-liquid discharge port; 210-an annular space; 220-control channel; 230-a valve core; 241-an elastic member; 242-a piston; 243-a limiting block; 250-a seal; 260-an anchor;

300-a packer; 400-sieve tube;

500-interlayer backwashing sealing pipe; 600-backwashing the sealing pipe at the top; 700-water injection pipe; 800-measuring and adjusting water distributor.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the accompanying drawings, and obviously, the described embodiments are some, but not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "length," "upper," "lower," "top," "bottom," "inner," "outer," "axial," and the like are used in the orientation or positional relationship indicated in the drawings for convenience in description and simplicity in description, and do not indicate or imply that the device or element so indicated must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "connected," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally formed; may be a mechanical connection; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

The present invention will be described in further detail below with reference to specific embodiments and with reference to the attached drawings.

Referring to fig. 1, the embodiment provides an interlayer backwashing sealing pipe 500, which is used in cooperation with a packer 300 and comprises a base pipe 100 and a backwashing pipe 200 sleeved outside the base pipe 100, wherein two ends of the backwashing pipe 200 along the length direction are hermetically connected with the base pipe 100, and an annular space 210 for circulation of backwashing liquid is reserved between the base pipe 100 and the backwashing pipe 200; the body of the backwash tube 200 is provided with a control passage 220, one end of the control passage 220 is communicated with the oil well annulus through an inlet 201, the other end of the control passage 220 is communicated with the base tube 100 through a liquid injection port 203, the control passage 220 is communicated with the annulus space 210 through an outlet 202, and the outlet 202 is positioned between the inlet 201 and the liquid injection port 203; a liquid outlet 204 for discharging backwash liquid is formed on the backwash pipe 200, and the liquid outlet 204 and the liquid injection port 203 are positioned on two sides of the packer 300; a valve core 230 is arranged in the control channel 220, and when the water injection work is performed, the valve core 230 can block the inlet 201 and the outlet 202 under the action of hydraulic pressure from the liquid injection port 203; during backwashing operation, the valve body 230 can close the liquid injection port 203 by the hydraulic pressure from the inlet port 201.

When in use, the interlayer backwashing sealing pipe 500 is firstly extended into a well and connected with the packer 300; during water injection, a worker injects water into the backwashing pipe 200, the water in the backwashing pipe 200 enters the control channel 220 from the liquid injection port 203, and then the valve core 230 is pressed to move so as to block the outlet 202 and the inlet 201, so that water injection layers separated by the packer 300 cannot be communicated during water injection; when backwashing is needed, a worker injects backwash liquid into an oil well annulus, the backwash liquid enters the control channel 220 from the inlet 201, the backwash liquid can drive the valve core 230 in the control channel 220 to move upwards, so that the valve core 230 blocks the liquid injection port 203, the backwash liquid cannot directly enter the base pipe 100 from the control channel 220, but flows into the annular space 210 from the outlet 202, and then is discharged from the liquid discharge port 204 at one end of the annular space 210 far away from the outlet 202, the inlet 201 is positioned above the packer 300, and the liquid discharge port 204 is positioned below the packer 300, so the backwash liquid can pass through the packer 300, the backwash liquid can reach the bottom of the oil well and is discharged out of the oil well from the backwash pipe 200 through the arrangement, and therefore, the backwash sealing pipe does not need to be lifted up by the worker during backwashing.

The valve core 230 in the control passage 220 always separates the liquid injection port 203 from both the inlet 201 and the outlet 202, and a stopper for limiting the movement position of the valve core 230 is arranged in the control passage 220, when water is injected, liquid in the base pipe 100 can enter the control passage 220 from the liquid injection port 203 and drive the valve core 230 to move towards the inlet 201, and the valve core 230 can be limited by the stopper after moving to a certain position, so that the valve core 230 is prevented from continuing to move, and at the moment, the valve core 230 can block the outlet 202, and the liquid entering from the inlet 201 is prevented from flowing out from the outlet 202.

During backwashing, backwash liquid entering from the inlet 201 can drive the valve core 230 to move towards the liquid injection port 203, the valve core 230 is pushed away from the outlet 202, the outlet 202 is exposed, and therefore backwash liquid flowing in from the inlet 201 can flow out from the outlet 202, and the backwash liquid enters the annular space 210 and then is discharged from the liquid discharge port 204.

The outer wall of the valve core 230 may be provided with a sealing ring to improve the sealing performance between the valve core 230 and the control passage 220.

Referring to fig. 1 and 6, it should be noted that the valve element 230 is slidably sealed with the inner wall of the control channel 220, the valve element 230 is nail-shaped, the channel where the large end of the valve element 230 slides is a first channel, the channel where the small end slides is a second channel, the channel communicated with the liquid injection port 203 is a third channel, and the diameters of the second channel and the third channel are both smaller than the diameter of the first channel, so when the valve element 230 moves, the large end of the valve element 230 abuts against the top of the second channel, the outlet 202 is closed and cannot be communicated with the inlet 201, and when the large end of the valve element 230 abuts against the bottom of the third channel, the outlet 202 is opened and is communicated with the inlet 201.

Or, the valve core 230 may be set to be a vertical rod shape, the channel where the valve core 230 slides is a first channel, the outlet 202 is communicated with the first channel, the channel connected with the inlet 201 is a second channel, the channel connected with the liquid injection port 203 is a third channel, and the diameters of the second channel and the third channel are both smaller than the diameter of the first channel, so when the valve core 230 is driven to move, when the valve core 230 abuts against the top of the second channel, the outlet 202 is closed and cannot be communicated with the inlet 201, and when the valve core 230 abuts against the bottom of the third channel, the outlet 202 is opened and is communicated with the inlet 201.

Referring to fig. 1, in an alternative embodiment, the base pipe 100 is provided with a through hole 110 on the sidewall thereof, which is communicated with the injection port 203, and the through hole 110 is not communicated with the annular space 210.

Specifically, the base pipe 100 is provided with the through hole 110, and during water injection operation, the liquid injected into the base pipe 100 can flow into the control passage 220 through the through hole 110 and the liquid injection port 203 in sequence, and the liquid in the base pipe 100 can only flow into the control passage 220 from the liquid injection port 203.

Also, when the spool 230 is undamaged, fluid within the base pipe 100 cannot enter the annular space 210.

It should be noted that the base pipe 100 can be communicated with the liquid injection port 203 only by opening the through hole 110, and the setting position of the liquid injection port 203 can be increased or the matching position of the base pipe 100 and the backwash pipe 200 can be adjusted, so that the liquid injection port 203 is positioned above the base pipe 100, and the liquid in the base pipe 100 can directly enter the liquid injection port 203 at this time.

Referring to FIG. 1, in an alternative to this embodiment, a backstop is provided in the annulus space 210 to prevent fluid in the well annulus from flowing into the control passage 220 through the drain port 204.

In particular, the presence of a backstop in the annular space 210 prevents fluid from the well annulus from flowing into the annular space 210 through the fluid ports 204.

During backwash operation, backwash liquid flowing from the inlet 201 into the control passage 220 will flow from the outlet 202 into the annular space 210 and then flow out of the drain 204 through the backstop into the well annulus, thereby allowing backwash liquid to pass through the packer 300 and be backwashed without lifting the backwash tube 200.

Wherein, after entering the annular space 210 from the outlet 202, the backwash liquid can flow to the drain 204 through the backstop; and liquid flowing from the drain port 204 cannot pass through the backstop.

Referring to fig. 1, in an alternative of the present embodiment, the ratchets include elastic members 241 and pistons 242 connected to the elastic members 241; the inner wall of the piston 242 is in sliding seal with the outer wall of the base pipe 100, and the outer wall of the piston 242 is in sliding seal with the inner wall of the backwash tube 200; during the water filling operation, the piston 242 is positioned between the drain 204 and the outlet 202, and during the backwashing operation, the drain 204 is positioned between the outlet 202 and the piston 242.

Specifically, the piston 242 is slidably sealed with both the base pipe 100 and the backwash pipe 200 by the elastic member 241 abutting against the piston 242, and the piston 242 is located above the drain port 204 when the elastic member 241 has no external force, so that the outlet 202 can be isolated from the drain port 204 by the cooperation of the elastic member 241 and the piston 242.

During backwashing, backwash liquid presses the piston 242, so that the elastic element 241 is pressed, the elastic element 241 is compressed, the piston 242 is driven to move downwards, the liquid outlet 204 is exposed, and at the moment, backwash liquid can flow out of the liquid outlet 204 into the oil well annulus.

During water injection, fluid flowing from the injection tube 700 to the well annulus is blocked by the piston 242 after entering the annulus 210 from the drain port 204 and is unable to flow down the annulus 210 towards the outlet 202.

Referring to fig. 1, in an alternative of the present embodiment, a stopper 243 is disposed in the annular space 210 for limiting the position of the piston 242, and the top of the piston 242 can abut against the bottom of the stopper 243; the stopper 243 is located between the outlet 202 and the liquid discharge port 204.

Specifically, the stopper 243 may be disposed on an outer wall of the base pipe 100, or may be disposed on an inner wall of the backwash pipe 200.

The stopper 243 is used to limit the maximum moving range of the piston 242, so as to prevent the elastic member 241 from being damaged due to the excessive moving distance of the water pressure driving piston 242 when the water pressure entering from the liquid outlet 204 is excessive.

Referring to fig. 1, in an alternative to this embodiment, the outer wall of the backwash tube 200 is provided with a seal 250 fitted with a packer 300, the seal 250 being located between the inlet 201 and the drain 204.

Specifically, the sealing element 250 on the outer wall of the backwash pipe 200 can be in sealing connection with the packer 300 in the oil well, and when the backwash pipe 200 is sealed with the packer 300, the inlet 201 of the backwash liquid is positioned above the packer 300, and the drain 204 of the backwash liquid is positioned below the packer 300.

Referring to fig. 1, in an alternative embodiment, the number of the sealing members 250 is plural, and the plural sealing members 250 are arranged at intervals in the axial direction of the backwash tube 200.

The sealing performance of the backwash tube 200 with the packer 300 can be improved by providing a plurality of sealing members 250.

Referring to FIG. 2, the present embodiment provides a top backwash seal pipe 600 comprising an inter-layer backwash seal pipe 500 and an anchor 260 connectable to the packer 300; the anchor 260 is disposed on an outer wall of the backwash tube 200 with the anchor 260 located between the inlet 201 and the drain 204.

Compared with the prior art, the top backwashing sealing pipe 600 has the advantages that the anchoring piece 260 can firmly fix the top backwashing sealing pipe 600 on the topmost packer 300, and the phenomenon that the top backwashing sealing pipe 600 is displaced in the subsequent working process is avoided.

Referring to fig. 3, 4 and 5, the present embodiment provides a water injection string comprising a top backwash seal 600, an inter-layer backwash seal 500, a plurality of packers 300 and a plurality of screens 400; a plurality of packers 300 are arranged in the oil well at intervals from top to bottom, and a sieve tube 400 is arranged between every two packers 300; the lower part of the top backwashing sealing pipe 600 is connected with an interlayer backwashing sealing pipe 500 which is connected with the interlayer backwashing sealing pipe through a water injection pipe 700, and the outer wall of the interlayer backwashing sealing pipe 500 and the outer wall of the top backwashing sealing pipe 600 are both connected with the inner wall of the packer in a sealing way.

Compared with the prior art, the water injection pipe column has the advantages that the top backwashing sealing pipe 600 and the interlayer backwashing sealing pipe 500 are connected together through the water injection pipe 700 and then are placed into a well, the top backwashing sealing pipe 600 and the interlayer backwashing sealing pipe 500 are sealed with the corresponding packer 300, the layered water injection work can be completed through the arrangement, and the top backwashing sealing pipe 600, the interlayer backwashing sealing pipe 500 and the water injection pipe 700 do not need to be lifted when the backwashing is needed for a period of water injection.

It should be noted that, in the water injection work in the prior art, because the water injection pressure rises after the water injection well injects for a period of time due to water injection impurities and the like, the specified injection allocation requirement cannot be met, and the pipe column (the pipe column is formed by connecting the top backwashing sealing pipe 600, the interlayer backwashing sealing pipe 500 and the water injection pipe 700) needs to be lifted for well washing operation, but the lifting of the pipe column inevitably causes the sealing failure of the pipe column.

Wherein, the packer 300 at the lowest part can adopt an anti-creep packer, and the phenomenon that the water injection pipe column slides in the working process is ensured.

Referring to fig. 4 and 5, in an alternative embodiment, the number of the inter-layer backwash seal pipes 500 is multiple, multiple inter-layer backwash seal pipes 500 are sequentially connected in series below the top backwash seal pipe 600, and the adjacent inter-layer backwash seal pipes 500 are connected through the water injection pipe 700.

Specifically, a plurality of interlayer backwashing sealing pipes 500 can be sequentially connected in series below the top backwashing sealing pipe 600, so that multi-layer water injection work is realized.

Referring to fig. 4 and 5, in an alternative embodiment, a measuring and adjusting water distributor 800 for adjusting the flow rate of water is provided on a water injection pipe 700.

The injection allocation quantity of all layers can be measured and adjusted by arranging the measuring and adjusting water distributor 800, the water injection of the upper layer and the lower layer is not influenced in the measuring and adjusting process, and the measuring and adjusting result is closer to the actual injection allocation quantity.

The measuring and adjusting water distributor 800 is a prior art, and the structure thereof is well known to those skilled in the art, and thus, the description thereof is omitted.

It should be noted that the water injection string is implemented as follows: and the setting service pipe column sends the bottom anti-creep packer into a specified position for setting, and then the setting service tool disengages from the anti-creep bottom packer and lifts out of the well mouth.

Wherein, the packer 300 at the top can adopt a suspension packer, and the packer 300 between the suspension packer and the bottom anti-creep packer can adopt an interlayer isolation packer.

The method comprises the following steps of setting a multi-layer sand control water injection tool pipe string (the multi-layer sand control water injection tool pipe string is composed of a plurality of packers 300 and a plurality of sieve pipes 400), sealing the bottommost end of the pipe string with a bottom packer in a matched mode, then sealing a hanging packer (the hanging packer is located at the topmost part) through a pressing seat, then sequentially setting interlayer isolation packers (the interlayer isolation packers are located between the hanging packer and the bottom packer in a sealing mode) after hands are taken off, and putting forward a service tool after all packer seats are sealed.

And (2) putting in a separate layer water injection pipe column (the separate layer water injection pipe column consists of an interlayer backwashing sealing pipe 500, a top backwashing sealing pipe 600 and a water injection pipe 700), inserting the bottom into the bottom anti-creeping packer to form sealing, sealing the top backwashing sealing pipe 600 with the suspended packer, and sealing the interlayer backwashing sealing pipe 500 with the interlayer isolation packer.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the embodiments of the present invention.

Claims (10)

1. An interlaminar backwash seal tube for use with a packer (300), comprising: the backwashing device comprises a base pipe (100) and a backwashing pipe (200) sleeved outside the base pipe (100), wherein two ends of the backwashing pipe (200) along the length direction are hermetically connected with the base pipe (100), and an annular space (210) for flowing of backwashing liquid is reserved between the base pipe (100) and the backwashing pipe (200);

a control channel (220) is formed in the body of the backwashing pipe (200), one end of the control channel (220) is communicated with the oil well annulus through an inlet (201), the other end of the control channel is communicated with the base pipe (100) through a liquid injection port (203), the control channel (220) is communicated with the annulus space (210) through an outlet (202), and the outlet (202) is positioned between the inlet (201) and the liquid injection port (203);

a liquid outlet (204) for discharging backwash liquid is formed in the backwash pipe (200), and the liquid outlet (204) and the liquid injection port (203) are positioned on two sides of the packer (300);

a valve core (230) is arranged in the control channel (220), and when the water injection work is carried out, the valve core (230) can block the inlet (201) and the outlet (202) under the action of hydraulic pressure from the liquid injection port (203); when backwashing is operated, the valve core (230) can block the liquid injection port (203) under the action of the hydraulic pressure from the inlet (201).

2. The zonal backwash seal of claim 1, wherein a backstop is disposed within the annulus space (210) for preventing fluid within the well annulus from flowing into the control passage (220) through the drain port (204).

3. The inter-layer backwash seal pipe according to claim 2, wherein the backstop comprises an elastic member (241) and a piston (242) connected to the elastic member (241);

the inner wall of the piston (242) is in sliding seal with the outer wall of the base pipe (100), and the outer wall of the piston (242) is in sliding seal with the inner wall of the backwash pipe (200);

the piston (242) is positioned between the outlet (202) and the liquid discharge port (204) during water filling operation, and the liquid discharge port (204) is positioned between the outlet (202) and the piston (242) during backwashing operation.

4. The interlayered backwash seal pipe according to claim 3, wherein a limiting block (243) for limiting the position of the piston (242) is arranged in the annular space (210), and the limiting block (243) is positioned between the outlet (202) and the liquid discharge port (204).

5. The interlayer backwashing sealing pipe according to any of claims 1 to 4, wherein a through hole (110) for communicating with the liquid injection port (203) is opened on the side wall of the base pipe (100), and the through hole (110) is not communicated with the annular space (210).

6. The inter-layer backwashing sealing pipe according to any of claims 1 to 4, wherein the outer wall of the backwashing pipe (200) is provided with a sealing member (250) adapted to a packer (300), and the sealing member (250) is located between the inlet (201) and the drain outlet (204).

7. The inter-layer backwash seal pipe according to claim 6, wherein the number of the seal members (250) is plural, and the plural seal members (250) are arranged at intervals in the axial direction of the backwash pipe (200).

8. A top backwash seal comprising an interlayer backwash seal according to any one of claims 1 to 7 and an anchor (260) connectable to a packer (300);

the anchor (260) is disposed at an outer wall of the backwash tube (200), and the anchor (260) is located between the inlet (201) and the drain (204).

9. A water injection string comprising a top backwash seal according to claim 8, an inter-layer backwash seal according to any one of claims 1-7, a plurality of packers (300) and a plurality of screens (400);

a plurality of packers (300) are arranged in an oil well from top to bottom at intervals, and the sieve tube (400) is arranged between any two adjacent packers (300);

the interlayer backwashing sealing pipe is connected below the top backwashing sealing pipe and is connected with the top backwashing sealing pipe through a water injection pipe (700), and the outer wall of the interlayer backwashing sealing pipe and the outer wall of the top backwashing sealing pipe are both in sealing connection with the inner wall of the packer (300).

10. The water injection string according to claim 9, wherein the number of the interlayer backwashing seal pipes is multiple, the multiple interlayer backwashing seal pipes are arranged below the top backwashing seal pipe in series, and two adjacent interlayer backwashing seal pipes are connected through the water injection pipe (700).

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