CN113236163A - Mechanical rotation seat sealing type leather cup packer - Google Patents

Abstract

The invention discloses a mechanical rotation sitting type leather cup packer, which comprises a central tube, and a friction centralizing mechanism, a slip anchoring mechanism, an emergency deblocking mechanism and a leather cup rubber barrel sealing mechanism which are sequentially installed or connected on the central tube, wherein the friction centralizing mechanism comprises a friction block traction body, a friction block and an arch spring; the packer can be suitable for oil well operation of various depths, the packer is effectively anchored, the number of sealing rings is very small, and the number of leakage points is effectively reduced.

Description

Mechanical rotation seat sealing type leather cup packer

Technical Field

The invention belongs to the field of packers for oil and gas fields, and particularly relates to a mechanical rotary setting type cup leather packer.

Background

The packer is one of important downhole tools in petroleum exploration, is widely used in operations such as oil gas testing, cement squeezing, water injection, oil extraction, gas production, fracturing, acidification and the like, and with the promotion of cost reduction and efficiency improvement of oil field enterprises, the oil field needs to be operated simply and conveniently, can be repeatedly set for multiple times, and can be suitable for various downhole tools with simple and reliable operation and various well depths.

At present, a plurality of mechanical weight-pressing type packers cannot be used in shallow wells; the hydraulic setting type packer needs ground pumping equipment to press an auxiliary setting mechanism to move so as to realize setting; many kinds of packers cannot be set repeatedly, only can the setting of the pipe column at a certain position once, and if the position is to be sealed again, the pipe column needs to be lifted out for maintenance and then enters the well again; and once the sealing rubber cylinders are extruded or expanded for sealing, most packers are always in a super-elastic compression or expansion state, the service life is limited, and the mechanical change of the pipe column can quickly cause the failure of a sealing system of the packer because some packers are not provided with anchoring devices; at present, the number of sealing rings of a plurality of packers on the market is large, so that the leakage hidden danger of the whole packer is large.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides the mechanical rotary setting type cup packer which can be suitable for oil well operation of various depths and can be used for effectively anchoring the packer, the number of sealing rings is very small, and the number of leakage points is effectively reduced.

In order to achieve the purpose, the invention adopts the following technical scheme: a mechanical rotation sitting seal type leather cup packer comprises a central tube, and a friction righting mechanism, a slip anchoring mechanism, an emergency deblocking mechanism and a leather cup rubber barrel sealing mechanism which are sequentially installed or connected on the central tube, wherein the friction righting mechanism comprises a friction block traction body, a friction block and an arch spring;

the slip anchoring mechanism comprises a traction cone, a slide way screw, a slip sleeve, a return spring, a bidirectional slip and a lower cone, wherein the traction cone and the lower cone are sleeved outside the central tube;

the emergency deblocking mechanism comprises a safety pin cap, a rubber cylinder mandrel, a safety pin and a first sealing ring, wherein the upper end of the rubber cylinder mandrel is connected with the lower end of the central pipe, the safety pin is arranged at the upper end of the rubber cylinder mandrel, the safety pin cap is arranged outside the safety pin, and the first sealing ring is arranged between the rubber cylinder mandrel and the central pipe;

the packing element rubber sleeve sealing mechanism comprises a back ring rubber sleeve, a second sealing ring, a third sealing ring, a packing element rubber sleeve and a lower joint, wherein the back ring rubber sleeve and the packing element rubber sleeve are sleeved outside a rubber sleeve mandrel, the second sealing ring is arranged between the back ring rubber sleeve and a central pipe, the lower joint is connected with the lower end of the rubber sleeve mandrel, and the third sealing ring is arranged between the lower joint and the rubber sleeve mandrel.

In the technical scheme, the central pipe is provided with a positive-rotation rectangular thread which is connected with an internal rectangular thread of the traction cone.

In the technical scheme, the bow spring is made of high-strength spring steel, the largest bow part of the bow spring is abutted against the outer circular surface of the middle part of the traction body of the friction block, and two ends of the bow spring are abutted against the inner wall of the friction block.

In the technical scheme, the bidirectional slip adopts 60-degree angles with opposite upper and lower tooth directions, and the tooth surface adopts high-frequency quenching.

In the technical scheme, the central tube is in threaded connection with the rubber cylinder mandrel, and the rubber cylinder mandrel is in threaded connection with the lower connector.

In the technical scheme, the leather cup rubber cylinder is formed by combining a high-temperature-resistant rubber material and a high-strength metal framework.

The invention has the beneficial effects that:

the rubber cylinder is compressed without lowering the ground or lifting the pipe column to realize the extrusion sealing of the rubber cylinder, so that the rubber cylinder can be applied to oil wells with all depths; the ground pumping equipment is not needed to pump pressure to push the piston mechanism to extrude the rubber cylinder to realize sealing, so that the operating cost of a fracturing or well cementation pump truck is reduced; the anchoring device is arranged, so that the phenomenon of packer rubber tube sealing loss caused by the creeping of the pipe column can be effectively prevented, and the well repairing frequency is reduced; the packer cup combined rubber cylinder is expanded, opened and attached to the inner wall of the casing to form extrusion sealing only when pressed downwards, and is in a loose state when the lower end has no pressure, so that the service life of the sealing rubber cylinder is effectively prolonged, and the well repairing cost is reduced; the setting can be repeated after the tubular column is rotated, so that the operation cost after the tubular column is taken out again and the packer is replaced is greatly reduced; the number of sealing rings is extremely small, so that the number of leakage points is effectively reduced; and a safety pin is designed, so that the safety of packer deblocking is improved.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is an enlarged view of the friction centering mechanism of fig. 1.

Fig. 3 is an enlarged view of the rotary anchor mechanism of fig. 1.

Fig. 4 is an enlarged view of the cup assembly sealing mechanism of fig. 1.

FIG. 5 is a schematic view of the anchoring seal within the casing of the present invention.

Wherein: 1. the device comprises a central tube, 2, a friction block traction body, 3, a friction block, 4, an arch spring, 5, a slide way screw, 6, a traction cone, 7, a slip sleeve, 8, a return spring, 9, a bidirectional slip, 10, a lower cone, 11, a safety pin cap, 12, a safety pin, 13, a first sealing ring, 14, a rubber cylinder mandrel, 15, a back ring rubber cylinder, 16, a second sealing ring, 17, a third sealing ring, 18, a leather cup rubber cylinder, 19 and a lower joint.

Detailed Description

The invention is further described with reference to the following figures and specific embodiments.

As shown in figure 1, the mechanical rotary setting type cup packer comprises a central pipe 1, and a friction centralizing mechanism, a slip anchoring mechanism, an emergency unsetting mechanism and a cup rubber cylinder sealing mechanism which are sequentially arranged or connected on the central pipe 1,

as shown in fig. 2, the friction righting mechanism comprises a friction block traction body 2, a friction block 3 and an arch spring 4, wherein the friction block traction body 2 is sleeved outside a central tube 1, the friction block 3 is covered outside the friction block traction body 2, the arch spring 4 is arranged between the friction block traction body 2 and the friction block 3, and the upper end of the friction block 3 is embedded in the friction block traction body 2;

the slip anchoring mechanism comprises a traction cone 6, a slideway screw 5, a slip sleeve 7, a reset spring 8, a bidirectional slip 9 and a lower cone 10, wherein the traction cone 6 and the lower cone 10 are sleeved outside a central tube 1, the slip sleeve 7 is fixed outside the traction cone 6 through the slideway screw 5, the upper end of the slip sleeve 7 is propped against the lower end of the friction block 3, the bidirectional slip 9 is sleeved outside the central tube 1 and is positioned between the traction cone 6 and the lower cone 10, the reset spring 8 is arranged on the bidirectional slip 9, and the reset spring 8 provides retraction elasticity of the bidirectional slip 9;

the emergency unsealing mechanism comprises a safety pin cap 11, a rubber cylinder mandrel 14, a safety pin 12 and a first sealing ring 13, wherein the upper end of the rubber cylinder mandrel 14 is connected with the lower end of the central pipe 1, the safety pin 12 is arranged at the upper end of the rubber cylinder mandrel 14, the safety pin cap 11 is arranged outside the safety pin 12, and the first sealing ring 13 is arranged between the rubber cylinder mandrel 14 and the central pipe 1;

the packing element sealing mechanism includes back of the body circle packing element 15, second and third sealing washer, packing element 18 and lower clutch 19, back of the body circle packing element 15 and packing element 18 cover are established outside packing element dabber 14, are equipped with second sealing washer 16 between back of the body circle packing element 15 and the center tube 1, and lower clutch 19 is connected with packing element dabber 14 lower extreme to be equipped with third sealing washer 17 between the two.

In the above technical solution, the central tube 1 is provided with a positive-rotation rectangular thread to be connected with the inner rectangular thread of the traction cone 6, and the rectangular thread provides a conduction function.

In the above technical scheme, the bow spring 4 is made of high-strength spring steel, so that the elasticity, the rigidity and the good fatigue service life are ensured, the maximum bow part of the bow spring 4 abuts against the outer circular surface of the middle part of the friction block traction body 2, and two ends of the bow spring abut against the inner wall of the friction block 3. The spring force of the bow spring 4 provides a compressible stroke and frictional positive pressure that provides the centering force between the tool and the casing while running the well and provides the frictional torque necessary to rotate the base pipe 1 relative to the friction block tractor 2.

In the technical scheme, the bidirectional slip 9 adopts a 60-degree angle with opposite upper and lower tooth directions, and the tooth surface adopts high-frequency quenching, so that the tooth surface strength is ensured, and the bidirectional anchoring of the slip can be ensured.

In the above technical scheme, the central tube 1 is in threaded connection with the rubber tube mandrel 14, and the rubber tube mandrel 14 is in threaded connection with the lower joint 19.

In the technical scheme, the middle of the rubber cylinder mandrel 14 is provided with a straight step, the upper part of the rubber cylinder back ring 15 is attached to one side of the step, the inner wall of the second sealing ring 16 is in interference fit with the outer wall of the rubber cylinder mandrel 14, liquid backflow is prevented, and the umbrella-shaped structure of the leather cup rubber cylinder 18 is in interference fit with the sleeve, so that the outer wall of the leather cup rubber cylinder 18 and the inner wall of the sleeve are pressed more and more tightly when the lower pressure comes, and pressure sealing is realized.

In the above technical scheme, the leather cup rubber cylinder 18 is made of a high-temperature resistant rubber material and a high-strength metal framework. The leather cup rubber cylinder 18 is made of high-temperature resistant rubber materials, and a high-strength metal framework is distributed inside the rubber cup rubber cylinder, so that the damage phenomenon caused by stress concentration generated when the rubber cylinder bears pressure is prevented.

The safety pin 12 is made of special free-cutting alloy steel and special size, so that the strength during shearing is guaranteed, and the number of the safety pin is adjustable, so that the force value of the whole packer can be adjusted during emergency lifting and deblocking.

The back ring rubber cylinder 15 is made of high-elasticity rubber materials, so that the leather cup rubber cylinder can be effectively protected.

The assembly sequence of the packing cup packer is as follows: clamping a central tube 1 on a bench vice, sleeving a friction block traction body 2 from the lower end of the central tube 1, installing an arch spring 4 into a corresponding groove of the friction block traction body 2, clamping the upper end of a friction block 3 into a circular groove in a trade center of the friction block traction body 2, pressing 5 friction blocks 3 towards a core part of the central tube 1 in the diameter direction by using an iron wire or a special tool, overcoming the elasticity of the arch spring 4, enabling the outer surface of the friction block 3 to be in a parallel state with the outer surface of the central tube 1, sleeving a traction cone 6 into the upper end of a slip sleeve 7 from the upper end on the ground, screwing a slide way screw 5 into a screw groove corresponding to the traction cone 6, installing a reset spring 8 at a bottom hole of an inner circle corresponding to the middle part of the slip sleeve 7, penetrating a bidirectional 9 from the lower part of the slip sleeve 7, sleeving the slip sleeve into a slip window in the middle part of the slip sleeve 7, and then sleeving a small assembly assembled on the ground into the tail part of the central tube, connecting the external thread at the lower end of a friction block traction body 2 with the internal thread at the upper part of a slip sleeve 7, then integrally rotating a friction centralizing mechanism and the slip sleeve 7 mechanism, meshing and rotating the internal thread of a traction cone 6 with the rectangular thread at the middle part of a central tube 1 to a certain position, sleeving a safety pin cap 11 from the upper part of a rubber tube mandrel 14, installing a safety pin 12 into a pin groove at the excircle at the upper end of the rubber tube mandrel 14, installing a No. 1 sealing ring into a sealing ring groove at the bottom of the internal thread at the upper end of the rubber tube mandrel 14, connecting the external thread at the tail part of the central tube 1 with the internal thread at the upper end of the rubber tube mandrel 14, connecting the internal thread of the safety pin cap 11 with the external thread of a lower cone 10, sleeving a back ring rubber tube 15 from the tail part of the rubber tube mandrel 14, installing a second sealing ring 16 into the internal thread at the upper part of a leather cup rubber tube 18, sleeving a leather cup rubber tube 18 according to the second sealing ring 16 into the sealing groove from the tail part of the central tube, and pushes up and abuts against the upper end step, the third sealing ring 17 is arranged in the upper end sealing ring groove of the lower joint 19, and finally the internal thread between the tail external thread of the central tube 1 and the lower joint 19 is connected, so that the whole assembling process is finished.

The working principle of the scheme is as follows:

the implementation of the rotary anchoring: the mechanical rotary anchoring type cup packer is put into a preset position of an oil well, a pipe column is rotated, because a friction block 3 is always bounced outwards by an arch spring 4 and is rubbed on the inner wall of a sleeve, a friction traction assembly and a slip sleeve on the cup packer cannot rotate along with the friction traction assembly and the slip sleeve, only a central pipe 1 and a rubber sleeve mandrel 14 drive a rubber sleeve sealing mechanism and a lower joint 19 to rotate along with the pipe column, the central pipe 1 rotates through a rectangular thread in the middle of the central pipe 1, a traction cone 6 slides downwards, under the combined action of the traction cone 6 and the lower cone 10, a bidirectional slip 9 compresses a return spring 8 to gradually approach the inner wall of the sleeve, the tooth surface of the slip is occluded on the inner wall of the sleeve, the whole cup packer is anchored, the whole pipe column is anchored, and the creeping of the pipe column is overcome.

The sealing of the sealing leather cup is realized: the largest outer diameter of the leather cup rubber cylinder 18 is larger than the inner diameter of the sleeve, and the leather cup rubber cylinder is made of elastic rubber and always clings to the inner wall of the sleeve to slide in the process of running, so that interference between the leather cup rubber cylinder and the inner wall of the sleeve is realized, and when pressure is applied to the lower part of the leather cup rubber cylinder, the leather cup rubber cylinder and the inner wall of the sleeve are pressed more and more tightly, so that pressure sealing is realized.

And (3) realizing anchoring release: the reverse rotation tubular column drives the rotation of the central tube 1, so that the traction cone 6 moves upwards along the thread, the lower end inclined plane of the traction cone 6 is separated from the bidirectional slip 9, the bidirectional slip 9 loses support and returns to the original position under the action of the reset spring 8, so that the tooth surface of the bidirectional slip 9 and the inner wall of the sleeve are in a meshed state, the tubular column and the cup packer are in a free state, the anchoring is released, and the tubular column is normally taken out.

Implementation of emergency unanchored: when the above-mentioned rotary anchoring removing mode is difficult to implement, the pipe column can be directly lifted, so that the lower cone 10 shears the safety pin 12 downwards, the lower cone 10 slides downwards to the middle inclined step of the rubber sleeve mandrel 14, the bidirectional slip 9 loses support, the tooth surface thereof loses the gripping force crossing the inner wall of the sleeve, the whole pipe column and the cup packer return to the free state, thereby removing the anchoring and normally foundation the pipe column.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention are included in the scope of the present invention.

Claims (6)

1. The utility model provides a rotatory setting formula leather cup packer of machinery, characterized by: the rubber cup rubber tube sealing device comprises a central tube, and a friction righting mechanism, a slip anchoring mechanism, an emergency deblocking mechanism and a rubber cup rubber tube sealing mechanism which are sequentially installed or connected on the central tube, wherein the friction righting mechanism comprises a friction block traction body, a friction block and an arch spring;

the slip anchoring mechanism comprises a traction cone, a slide way screw, a slip sleeve, a return spring, a bidirectional slip and a lower cone, wherein the traction cone and the lower cone are sleeved outside the central tube; the emergency deblocking mechanism comprises a safety pin cap, a rubber cylinder mandrel, a safety pin and a first sealing ring, wherein the upper end of the rubber cylinder mandrel is connected with the lower end of the central pipe, the safety pin is arranged at the upper end of the rubber cylinder mandrel, the safety pin cap is arranged outside the safety pin, and the first sealing ring is arranged between the rubber cylinder mandrel and the central pipe;

the packing element rubber sleeve sealing mechanism comprises a back ring rubber sleeve, a second sealing ring, a third sealing ring, a packing element rubber sleeve and a lower joint, wherein the back ring rubber sleeve and the packing element rubber sleeve are sleeved outside a rubber sleeve mandrel, the second sealing ring is arranged between the back ring rubber sleeve and a central pipe, the lower joint is connected with the lower end of the rubber sleeve mandrel, and the third sealing ring is arranged between the lower joint and the rubber sleeve mandrel.

2. The mechanical rotary setting cup packer of claim 1, wherein: the central tube is provided with a positive-rotation rectangular thread which is connected with the inner rectangular thread of the traction cone.

3. The mechanical rotary setting cup packer of claim 1, wherein: the bow spring is made of high-strength spring steel, the maximum bow part of the bow spring is abutted against the outer circular surface of the middle part of the traction body of the friction block, and two ends of the bow spring are abutted against the inner wall of the friction block.

4. The mechanical rotary setting cup packer of claim 1, wherein: the bidirectional slip adopts 60-degree angle with opposite upper and lower tooth directions, and the tooth surface adopts high-frequency quenching.

5. The mechanical rotary setting cup packer of claim 1, wherein: the central tube is in threaded connection with the rubber cylinder mandrel, and the rubber cylinder mandrel is in threaded connection with the lower joint.

6. The mechanical rotary setting cup packer of claim 1, wherein: the leather cup rubber cylinder is formed by combining a high-temperature resistant rubber material and a high-strength metal framework.

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