RU81519U1 - SEALER OF LONG-DIMENSIONAL COUPLING-FREE PIPES - Google Patents

Abstract

The sealant of long clutchless pipes belongs to the field of oil and gas production and is intended for use during repair work and technological operations in oil and gas wells with high pressure at the wellhead using a long clutchless pipe. To improve performance and reliability, it contains a housing 1, which is made in the form of two connected parts, the lower 2 and the upper 3, interconnected so that the lower end 36 of the upper part of the housing 1 forms an annular protrusion 37 in the inner cavity of the housing , the upper part of the housing is made with at least two through-holes 4 on the side surface, the upper base of the housing is made with a through axial hole 6, and the lower base of the housing is made with a through axial channel 8, for passage of pressures tizizuyuschego body (long sleeveless pipe), which passes through the sealing element 10, connected by means of connecting elements with the lower 15 and upper 16 restrictive supports made with central axial holes for the passage of the sealed body 9, the upper restrictive support 16, made with the upper horizontal outlet 17 rests against the upper surface of the horizontal outlet in the retractable latch 19 mounted in the upper part of the housing, and the lower restrictive support 15 abuts against the annular ilindrichesky projection 20 by which passes through an axial channel 8 in the bottom of the inner cavity of the lower housing part, a cavity which simultaneously

a hydraulic cylinder 22 associated with the supply sources 23 and the outlet 24 of the working fluid, while the piston 25 of the said hydraulic cylinder made in the form of a hollow cylindrical body has a variable diameter in its upper and lower parts and is equipped with at least two additional hydraulic cylinders 27 located in its walls the rods 31 of the pistons 28, which are pushers, abutting their upper end surface 32 against the lower surface of the horizontal outlet of the upper limit support 15.

1pr. F-ts, 7 ext. f-ts f-ly, 11 ill.

Description

The inventive utility model "Sealant of long sleeveless pipes" relates to the field of oil and gas production and is intended for use in the repair work and technological operations in oil and gas wells with high pressure at the mouth using a long sleeveless pipe.

A known sealant (see RF patent No. 2289674, publ. 2006.12.20, IPC ЕВВ 33/03), comprising a housing with a cover and at least one spring-loaded sleeve with sealing elements placed above and below it, with this case of the sealant is made in the form of a hydraulic cylinder, equipped with a piston, one or more spring-loaded clips with elastic frameless or frame sealing elements and a drainage chamber equipped with a discharge fitting and a cover with a sealing element, while the housing and piston are equipped with s injection and / or branch ducts with fittings and the drain chamber with a lid adapted to be screwed in a cylinder to compress the sealing elements.

A disadvantage of the known sealant is low performance, as well as the complexity of manufacturing the product.

These disadvantages are due to the design features of the known sealant, namely the lack of the ability to replace the packing in the field, directly at the wellhead.

In addition, there is a pipe sealant for a ram preventer adopted as a prototype (see RF patent for the invention No. 2209925, IPC E21 B 33/06, on. 2003.08.10), comprising a housing consisting of two parts, upper and lower, upper working and lower backup seals, hydraulic drive and manual drive, the upper working seal is made with the possibility of interaction with two drives: hydraulic and manual, covered on the outside by a detachable cup and located in it with the possibility of mounting and dismounting in the well at overpressure, and are detachable the first cup is installed by means of a nut on the side of the upper end of the sealant, and the manual drive is installed with the possibility of interaction with the lower backup seal, and both drives are equipped with indicators "spin" and "clamp", and the upper working and lower backup seals can be mounted with one outer diameter and various internal diameters for various pipe sizes, the housing is made with mounting dimensions corresponding to the same sizes of ram preventers, the upper working seal is t of two concentrically arranged elastic parts: a removable liner and a cuff, covered externally with a split cup.

A disadvantage of the known technical solution is the complexity of manufacturing, high material consumption, low performance.

These shortcomings are due to the fact that the design of the body of the known sealant consists of two parts, the upper and lower, in each of which there are seals, with only the upper seal being installed and dismantled directly at the well, and the installation and dismantling of the lower seal is possible only in stationary conditions . In addition, the design of the housing and related components that make up the known

the sealant has a large weight and material consumption, while there is a need to monitor the frequency of constant replacement of these parts, which is the time between maintenance cycles, increases the cost and cost of repairs and reduces the performance of the known sealant.

The technical result of the claimed utility model “Sealant of long clutchless pipes” is to increase performance, reliability, as well as reducing material consumption and simplifying the design of the sealant.

The technical result is achieved in that the inventive sealant of long clutchless pipes, according to the utility model, comprises a housing which is made in the form of two parts connected together, lower and upper, interconnected in such a way that the lower end of the upper part of the housing forms an annular protrusion in the inner cavity of the housing, the upper part of the housing is made with at least two through-windows on the side surface, the upper base of the housing is made with a through axial hole, and the lower axis The housing is made with a through axial channel for passing the body to be sealed (long sleeveless pipe), which passes through the sealing element connected by connecting elements to the lower and upper restrictive supports made with central axial holes for passing the pressurized body, and the upper limit bearing, made with the upper horizontal outlet, rests against the upper surface of the horizontal outlet in a retractable latch mounted in the upper part casing, and the lower restrictive support abuts against an annular cylindrical protrusion along which a through axial channel passes at the base of the inner cavity of the lower part of the casing, which is

at the same time, the cavity of the hydraulic cylinder associated with the sources of supply and removal of the working fluid, while the piston of the hydraulic cylinder made in the form of a hollow cylindrical body has a variable diameter in its upper and lower parts and is equipped with at least two additional hydraulic cylinders located in its walls , which are pushers abutting their upper end surface against the lower surface of the horizontal outlet of the upper limit support, the seal is made in the form of of concentrically arranged elastic parts with a curly section of joined vertical planes, in addition, the retractable latch installed in the upper part of the casing is the lower base of the through windows, and the upper and lower parts of the casing are interconnected by means of a threaded connection and fixed using one or more stoppers , the hollow cylindrical piston of the hydraulic cylinder is equipped with stuffing box seals, in the upper part of the body there is a fitting with a spray gun for lubrication of the body to be sealed, through windows on the side surface of the upper part of the housing are located symmetrically relative to the central axis, the pistons of the additional hydraulic cylinders are equipped with stuffing box seals.

Between the totality of the features proposed in this utility model and the achieved technical result, there is the following causal relationship.

Unlike analogs and prototypes, in the design of the claimed utility model, the housing is made in the form of two parts connected together, lower and upper, which is made with at least two through windows and the connection between the two parts, lower and upper, is made as so that the lower end of the upper part of the body forms an annular protrusion in the inner cavity

determining the stroke of the piston of the hydraulic cylinder, which is both the internal cavity of the housing and the execution of the piston of the hydraulic cylinder in the form of a hollow cylindrical body with a variable diameter in its upper and lower parts, as well as equipping it with at least two additional hydraulic cylinders located on its walls, the piston rods, which is pushers abutting their upper end surface against the lower surface of the horizontal outlet of the upper restrictive support of the sealing element, made in the form of two concentrically arranged elastic parts with a curly section of joined vertical planes greatly simplifies the design of the sealant, since in this case only one sealing element is used of a simple design, which generally not only simplifies the sealant, but reduces its material consumption, increasing at the same time operational qualities, since all operations to replace the sealing element are carried out without dismantling the equipment from the wellhead and without removing the pipe from the well. In addition, the constructive implementation of the cavity of the hydraulic cylinder and the hollow cylindrical piston provides not only quick and high-quality replacement of the sealing element, but also increases the reliability of the sealing element and the sealant as a whole, due to the constant pressing of the sealing element by the hollow cylindrical piston of the hydraulic cylinder. By the totality of the features, the proposed sealant of long clutchless pipes is more durable than the analogues and prototype objects.

The analysis of the prior art by the applicant, including a search by patent and scientific and technical sources of information and identifying sources containing information about analogues of the claimed utility model “”, allowed to establish that the applicant did not

an analogue was found, characterized by characteristics identical to those of the claimed utility model, and the determination from the list of identified analogs of the prototype as the closest analogue in terms of characteristics made it possible to identify the set of distinctive features that are seen by the applicant as a result of the claimed object described in the utility model .

Therefore, the claimed utility model “Sealant of long clutchless pipes” meets the criterion of “novelty”, according to current legislation.

The set of essential features characterizing the essence of the claimed utility model “Sealant of long sleeveless pipes” can be repeatedly used in the production and use of similar sealants of long sleeveless pipes to obtain a technical result, which consists in improving performance, reliability and durability, which allows us to conclude compliance of the claimed utility model with the criterion of "industrial applicability".

Thus, the above set of essential features in the claimed utility model “Sealant of long sleeveless pipes” is absent in the above analogues and is not known from the prior art in the field of mining, in particular, sealing of long sleeveless pipes during tripping, and the results of the experiments confirm the possibility of implementing the claimed utility model “Sealant of long clutchless pipes” with obtaining a new useful technical result, in what can we conclude that the claimed

“Sealant of long clutchless pipes”, meets the criteria of its patentability.

The essence of the claimed utility model "Sealant of long sleeveless pipes" is illustrated by an example of a specific implementation, where:

- figure 1 shows (in section) a General view of the housing of the proposed sealant of long sleeveless pipes in the process;

- figure 2 shows a section aa in figure 1;

- figure 3 shows an enlarged node I in figure 1;

- figure 4 shows (in section) a General view of the housing of the proposed sealant long clutchless pipes in the process of changing the sealing element;

- figure 5 shows the sealant of long sleeveless pipes (view from the photograph in oxanometry);

- figure 6 shows a sectional view of the sealant of long sleeveless pipes parallel to the through window during operation (view from the photograph in oxanometry);

- Fig.7 shows a sectional view of the sealant of long sleeveless pipes perpendicular to the through hole during operation (view from the photograph in oxanometry);

- Fig. 3 shows a sealant of long sleeveless pipes at the time of replacing the sealing element (view from the photograph in oxanometry);

- figure 9 shows the sealant of long sleeveless pipes in a section parallel to the through recess at the time of replacing the seal (view from the photograph in oxanometry);

- figure 10 shows the sealant of long sleeveless pipes in a section perpendicular to the through recess at the time of replacement of the seal (view in oxanometry);

- figure 11 shows one of the components of the seal.

The sealant of long clutchless pipes consists of a hollow cylindrical body 1, made in the form of two parts connected together, lower 2 and upper 3. The upper part 3 of the housing 1 of the sealant is made with two through windows 4 on the side surface located symmetrically with respect to the central axis X-X . The upper base 5 of the upper part 3 of the housing 1 is made with a through axial hole 6, and the lower base 7 of the lower part 2 of the housing 1 is made with a through axial channel 8, through which the sealed body 9 (long clutchless pipe) is passed during operation, which passes during the descent and operation through an elastic sealing element 10 made, for example, of polyurethane (rubber). The cylindrical sealing element 10 is made in the form of two concentrically arranged elastic parts 11 with a vertical curly cut 12, which provides quick and accurate joining of vertically cut concentrically located elastic parts 11 - halves of the sealing element 10 when mounting the sealing element on the sealed body 9 in the cavity of the housing 1 of the sealant. The cylindrical sealing element 10 is made with through vertical holes 13 through which the connecting elements 14 connecting the sealing element 10 pass with the lower limit bearing 15 and the upper limit bearing 16, which are made with central axial holes for the passage of the body 9 to be sealed (long couplingless pipes). The upper restrictive support 16, made with the upper horizontal outlet 17, abuts with its upper surface 18 of the horizontal outlet 17 in the retractable latch 19 installed in the upper part 3 of the housing 1, and the lower restrictive support 15 abuts in an annular cylindrical protrusion 20 at the base of the inner cavity 21 of the lower

part 2 of the housing 1, which is simultaneously the cavity of the hydraulic cylinder 22, connected by pipes 23 and 24 with sources of supply and removal of the working fluid, in particular oil. The hollow cylindrical piston 25 of the aforementioned hydraulic cylinder 22, covers the sealing element 10, with the lower restrictive support 15 and props it from below, also covering the above-mentioned annular cylindrical protrusion 20 at the base of the inner cavity 21 of the lower part 2 of the housing 1. In the walls 26 of the hollow cylindrical piston 25 there are two additional hydraulic cylinders 27, the cavities of which are connected with the cavity of the hydraulic cylinder 22 and, respectively, connected by means of pipes 23 and 24 to the sources of supply and discharge of the working fluid, in particular la Each additional hydraulic cylinder 27 contains a piston 28 with two oil seals 29 and 30. The piston 28 is located, inoperative, in the lower part of the additional hydraulic cylinder 27. The piston rod 31 is simultaneously a pusher abutting its upper end surface 32 against the lower surface 33 of the horizontal outlet 17 of the upper restrictive support 16. The lower 2 and upper 3 parts of the housing 1 are interconnected by means of a threaded connection 34 and are fixed from spontaneous deployment using the stopper 35, while both parts casing 1 are connected in such a way that the lower end 36 of the upper part 3 of the housing 1 forms a flat below the annular protrusion 37 in the internal cavity of the housing 1, which is, at the same time, the cavity of the hydraulic cylinder 22, and this annular protrusion 37 determines the stroke of the hollow cylindrical piston 25 of the hydraulic cylinder 22. The inner the cavity 21 of the lower part 2 of the housing 1, as mentioned above, is made in the base with an annular cylindrical protrusion 20, the height of which corresponds to the stroke of the piston 25 of the hydraulic cylinder 22. A retractable latch 19 mounted in the upper part 3 of the housing 1,

which is the lower base of the through windows 4, extends and installs along the guides 38 perpendicular to the plane of the through windows 4. The hollow cylindrical piston of the hydraulic cylinder 22 is equipped with stuffing box seals 39, and each additional hydraulic cylinder 27 is equipped in its upper part 40 with a locking device 41 with stuffing box seals 42. In the upper part 3 of the housing 1 is a fitting 43 with a spray 44 for lubrication of the sealed body 9 (long sleeveless pipe), the lubricating hose 45 (partially shown in the drawing) collapses to housing 1 with collar 46.

The operation of the inventive sealant of long clutchless pipes is as follows.

In the process of operation of the sealant of long sleeveless pipes, they carry out tripping operations of long sleeveless pipes in oil and gas condensate wells under high pressure, in order to avoid the ingress of fluid through the sealant, the sealing element 10 is constantly pressed by creating operating pressure in the cavity of the hydraulic cylinder 22. If necessary, replace the sealing element 10, remove the retractable latch 19 and supply the working fluid (oil) through the pipe 23 into the cavity of the hydraulic cylinder

22. The hollow cylindrical piston 25 rises up to its stop in the annular protrusion 37 in the internal cavity of the housing 1. After the piston 25 stops, the working fluid begins to flow into the cavity of each additional hydraulic cylinder 27 and press on the piston 28, rod 3, the upper end of which is simultaneously a pusher resting against its upper end surface 32 against the lower surface 33 of the horizontal outlet 17 of the upper restrictive support 16, which, under the action of the pushers, begins to rise upward by the sealing element ohm 10 and lower restrictive

support 15. When the lower restrictive support 15 reaches the lower base of the through windows 4, the supply of working fluid through the pipe 23 is stopped and the working fluid is supplied through the pipe 24, returning the pistons 28 with the rods 31 to their original position. After that, the connecting elements 14 connecting the sealing element 10 with the upper restrictive support 16 and the lower restrictive support 15 are removed, after which a new sealing element 10 is placed on the lower restrictive support 15, joining the concentrically arranged elastic parts 11 along the vertical figured section 12, mounting the sealing element on the sealed body 9 in the cavity of the housing of the sealant. After that, the connecting elements 14 are installed, and a new sealing element 10 is connected with the upper restrictive support 16. Then, the sealing element 10 is returned to its initial position with the upper and lower restrictive supports and the retractable latch 19 is put in place. All operations to replace the sealing element are carried out without dismantling equipment from the wellhead and without dredging a long pipe from the well.

The use of this utility model, the sealant of long sleeveless pipes, has improved its operational and technical qualities, reliability and durability, and sealing.

Claims (8)

1. The sealant of long clutchless pipes, characterized in that it contains a housing that is made in the form of interconnected two parts, lower and upper, interconnected so that the lower end of the upper part of the housing forms an annular protrusion in the inner cavity of the housing, the upper the housing part is made with at least two through-windows on the side surface, the upper housing base is made with a through axial hole, and the lower housing base is made with a through axial channel, for prop ska of the body to be sealed (long clutchless pipe), which passes through the sealing element connected by means of connecting elements to the lower and upper restrictive supports made with central axial openings for passing the body to be sealed, and the upper restrictive support made with the upper horizontal outlet abuts against the upper surface horizontal release into a retractable latch mounted in the upper part of the housing, and the lower restrictive support abuts against the ring a cylindrical protrusion along which a through axial channel passes at the base of the inner cavity of the lower part of the housing, which is simultaneously the cavity of the hydraulic cylinder connected to the sources of supply and discharge of the working fluid, while the piston of the hydraulic cylinder made in the form of a hollow cylindrical body has a variable diameter in its upper and the lower part and is equipped with at least two additional hydraulic cylinders located in its walls, the piston rods of which are pushers that abut their top s end surface to the lower surface of the horizontal upper bounding release bearing. 2. The sealant of long sleeveless pipes according to claim 1, characterized in that the sealing element is made in the form of two concentrically arranged elastic parts with a curly section of joined vertical planes. 3. The sealant of long sleeveless pipes according to claim 1, characterized in that the retractable latch mounted in the upper part of the housing is the lower base of the through windows. 4. The sealant of long sleeveless pipes according to claim 1, characterized in that the upper and lower parts of the housing are interconnected by means of a threaded connection. 5. The sealant of long sleeveless pipes according to claim 1, characterized in that the connected upper and lower parts of the housing are fixed with one or more stoppers. 6. The sealant of long sleeveless pipes according to claim 1, characterized in that the hollow cylindrical piston of the hydraulic cylinder is equipped with one or more stuffing boxes. 7. The sealant of long sleeveless pipes according to claim 1, characterized in that in the upper part of the housing there is a fitting with a spray gun for lubrication of the body to be sealed. 8. The sealant of long sleeveless pipes according to claim 1, characterized in that the through windows on the side surface of the upper part of the housing are symmetrically relative to the central axis X-X.