RU2460931C1 - Method of water-proofing pipeline pit in swamps and lakes - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: pit body 1 is jointed to pipeline 2 by half-coupling 5 representing hollow half-cylinder 6 with bore 7 cut in lengthwise axis X-X to make pit bottom hole 8 aligned with half-coupling hole 9. Sleeve 11 is fitted through valve seat hole in half-coupling wall 12 after walls of sleeve 11 are cleaned. Hydraulic plug 15 is fitted in said sleeve 11 to receive unions 16 for hydraulic composition 18 to be pumped therein. Gland 16 is fitted on sleeve 11 and reinforced by screen 20 in two layers. Then, second hydraulic plug 22 made of ''Maxplug'' material is fitted on half-coupling top section 21 and reinforced gland 19. Hydraulic plug 22 hardened, protective coating 23 is fitted thereon. Said coating is made of ''Maxsill Flex'' material. Note here that gland is made from sealant based on modified silyl ''Vitrafin Bond''.

EFFECT: expanded performances, higher reliability and efficiency.

5 cl, 3 dwg

Description

The invention, “A method for waterproofing a pipeline well in swamps and lakes,” relates to linear structures of underground pipelines, and in particular, to methods for producing waterproof insulation for inspection and production wells of pipelines.

Known methods of waterproofing pipelines in flooded areas that are made of precast or monolithic reinforced concrete (see A.K. Pereshivkin and others. “Installation of external water supply and sewage systems.” 4th ed., Revised and updated. - M. : Stroyizdat, 1988, p. 653), in which wells are assembled on a reinforced concrete slab or in a monolithic base in the form of a vertical set of rings or frames covered by a slab, holes for pipes and a neck are made in the walls and ceilings of each well. The joints of the mating elements and the holes for the pipes are sealed with clay tar and mastics, and the inner surfaces of the walls and the base are covered with waterproofing, and the seals and waterproofing are made directly in the field.

The disadvantage of this method is the low reliability of sealing and waterproofing, high complexity and cost of repairs.

This drawback is due to the fact that wells with such waterproofing have a long repair cycle with the use of lifting machines, as well as the high complexity of installation work, the waterproofing performed does not provide the necessary tightness and reliability, which leads to the ingress of groundwater infiltrate into the well.

A known method of waterproofing a well of a pipeline, implemented in a well to ensure monitoring of the operation of the pipeline and its equipment according to the patent for PM No. 1055712, IPC F17D 5/00, publ. 06/20/2011, which contains a vertical hollow body with hermetically sealed upper and lower holes.

There is also known the prototype method of waterproofing a well of a pipeline, implemented in a well to ensure monitoring of the operation of the pipeline and its equipment according to the patent for PM No. 62207, IPC F17D 5/00, publ. 03/27/2007, which contains a hollow body with two holes, one of which is equipped with a movable cover, and the second is located opposite the pipeline. Such a well is hermetically connected to the pipeline body by means of an element of hermetic fixed connection of the well body to the pipeline, which is configured to jointly enclose the pipeline in the form of a half coupling and a half ring, while it is equipped with seals for hermetically fixed connection of the well body to the pipeline, the half coupling being made as halves of a round hollow cylinder, cut along the longitudinal axis, with a hole and hermetically attached to the body so that the second hole in to rpuse coupling half and opening in the same, while around the opening in the coupling half has a seal consisting of a rubber layer with an adjacent layer of sealant.

The disadvantage of this method is the fragility, low efficiency of waterproofing, reliability and operational capabilities.

These shortcomings are due to the fact that in the conditions of the passage of the pipeline in swamps and lakes, short-term waterproofing in the form of a layer of rubber and sealant becomes unusable, unable to withstand a large temperature difference, and re-installing a similar waterproofing in a flooded well is laborious and ineffective.

The technical result of the present invention is to increase reliability and efficiency, operational capabilities while increasing durability.

The technical result is achieved by the fact that in the known method of waterproofing the well of a pipeline in swamps and lakes, when the body of the well is connected to the pipeline, using an element in the form of a half coupling, which is half a circular hollow cylinder cut along the longitudinal axis, which is fixed to the pipeline with the possibility its coverage, according to the invention, in the well of the pipeline, at the location of the valve, on the half-sleeve install the sleeve through the hole in the wall of the half-coupler mounted on the pipe de clamps, then they clean the walls of the sleeve and install a water seal in it, in which subsequently install the fittings through which the hydraulic composition is pumped, which use the expanding materials "Aquidur" or "Vitrapur", after which the gland is installed on the sleeve, which is reinforced with a double mesh after which, on the upper part of the coupling half, located directly in the well of the pipeline, a second water seal is installed, on which, after setting, a protective coating is laid, and the water seals are made of m Therians "MAXPLUG" gland is made of a sealant based on a modified silyl "Vitrafin Bond", as a protective coating material used "MAXSEAL® Flex", and the wall of the sleeve was purified with subsequent degreasing.

Between the distinguishing features and the achieved technical result, there is the following causal relationship.

In contrast to the analogue and prototype, the use in the proposed technical solution “Method of waterproofing the well of the pipeline in swamps and lakes” when connecting the body of the well to the pipeline using an element in the form of a coupling half of a round hollow cylinder cut along the longitudinal axis, which they are fixed on the pipeline with the possibility of its coverage in the well of the pipeline at the location of the valve, a sleeve is installed on the coupling half through an opening in the wall of the coupling half mounted on the pipe Then, they clean the walls of the liner and install the first water seal in it, which is made of Maxplag material, and generally increases reliability, efficiency and durability, since the possibility of installing the liner and water seal will seal the well and carry out further waterproofing works, since the material "Maxplag" is a quick-setting hydraulic cement mortar for 3-5 minutes, designed to instantly stop water leaks that filter through concrete and stone structures, moreover, the material, increasing in volume, waterproofs the surface, and then does not crack, does not shrink and does not lose its strength characteristics during hardening. An additional effect of such a water seal is high ecology, since the water seal material does not contain chlorides, is non-toxic, and can be used in direct contact with drinking water. The mechanical characteristics of the hydraulic seals made of the “Maxplag” material are comparable with the characteristics of concrete, and in some cases even surpass them, so installing a second water seal directly on the coupling, a reinforced seal and the mouth of the valve increases operational capabilities, as well as reliability, efficiency and durability, and it should be noted that the “Maxplag” material easily grasps with water and is easy to use, which also increases the operational capabilities of water seals and the entire process of waterproofing a pipe well Wire in the swamps and lakes as a whole. Subsequent installation of one or more fittings into the hydraulic seal through which the hydraulic composition is pumped, using the expanding Akvidur or Vitapur material, also allows to increase the operational capabilities of the proposed method, its reliability and efficiency, since the expanding Akvidur or Vitapur material "Have a quick gelation time when interacting with water up to 4 minutes, being a non-shrinking material in moisture-saturated environments, at the same time quickly fill all cracks, pores, cavities , design, creating a reliable barrier to moisture in the cavity of the well. Installation after injection of the hydraulic composition onto the stuffing box sleeve, which is made from sealant, based on modified Vitrafin Bond silyl, with a paste-like adhesive having high chemical resistance and excellent adhesion to most traditional building materials, can be applied at low temperatures to wet surfaces, does not drain off vertical surfaces, also increases the operational capabilities of the method, reliability and durability. Reinforcing the stuffing box with a two-layer mesh with subsequent installation on the upper part of the coupling half, located directly in the pipeline well and on the reinforced stuffing box of the second hydraulic seal from the material “Maxplag”, as a whole eliminates damage and destruction of the stuffing box, increasing its durability, and, in combination, longevity of well operation. Subsequent laying on the second hydraulic seal made of the “Maxplag” material after setting, located on the upper part of the coupling half, directly on the bottom of the pipeline well, the protective coating made of the “Maxssil Flex” material will ensure complete waterproofness, even in conditions of high negative water pressure. The protective coating using the elastic material “Maxxil Flex”, since it compensates for shrinkage deformation and blocks hair cracks, working like an elastic membrane, will ensure complete waterproofness, even in conditions of high negative water pressure. The “Maxxil Flex” material, since it is resistant to atmospheric pollutants, the corrosive effect of salt water and the effects of alternating freezing / thawing cycles, will ensure high reliability and effectiveness of protecting the pipeline well from moisture penetration. Covering the horizontal part (floor) and, partially, the vertical surface of the well provides waterproofing of the underground structure, which improves the reliability and durability of the waterproofing, as well as the operational capabilities of the well of the pipeline passing through swamps and lakes.

The analysis of the prior art by the applicant, including a search by patent and scientific and technical sources of information and identification of sources containing information about analogues of the claimed invention, “Method for waterproofing a pipeline well in swamps and lakes,” revealed that the applicant did not find a source characterized by a combination of features, identical to all the essential features of the claimed technical solution. According to the applicant’s information, the set of essential features of the claimed invention “Method of waterproofing a pipeline well in swamps and lakes” is not known from the prior art, which allows us to conclude that the invention meets the criterion of “novelty”. The determination from the list of identified analogues of the prototype as the closest in terms of the totality of the features of the analogue made it possible to identify the set of distinguishing features that are essential to the applicant’s technical result in the claimed method and device for waterproofing a pipeline well in marshes and lakes set forth in the claims. Therefore, the claimed invention "Method of waterproofing a well in a swamp and lakes" meets the criterion of "novelty."

To verify the conformity of the claimed invention to the criterion of "inventive step", the applicant conducted an additional search for known solutions to identify a set of features that match the distinctive features of the claimed method and device for waterproofing a pipeline well in swamps and lakes. The search results showed that the claimed "Method of waterproofing a pipeline well in swamps and lakes" does not follow explicitly from the prior art for the specialist, since the influence of the transformations provided for by the essential features of the claimed invention has not been identified from the prior art to achieve a technical result. Therefore, the claimed invention "Method of waterproofing a well in a swamp and lakes" meets the criterion of "inventive step".

Thus, the above information indicates that when using the claimed method of waterproofing the well of a pipeline in swamps and lakes in combination of the features in the form as the claimed method and device are described in the claims, they confirm the possibility of their implementation using the specific embodiment described in the application. The implementation of actions and technological methods in time and structural elements that implement these methods and embody the claimed method of waterproofing a pipeline well in swamps and lakes are able to achieve the achievement of the technical result perceived by the applicant, namely, durability, efficiency, operational capabilities that provide effective waterproofing and protection of the pipeline well in swamps and lakes, therefore, the claimed invention "Method for waterproofing a pipeline well in swamps and oz Pera "meets the criterion of" industrial applicability ".

The set of essential features characterizing the essence of the invention "Method of waterproofing a pipeline well in swamps and lakes" with obtaining a technical result, which consists in increasing the reliability, durability and efficiency, operational and technical capabilities that provide quick and high-quality protection of the pipeline well from moisture penetration, except In addition, an additional technical result is high safety precautions for servicing pipeline wells.

The essence of the claimed invention "Method of waterproofing a well in a swamp and lakes" is illustrated by an example of a specific implementation and schemes, where

figure 1 schematically shows the well of the pipeline in the swamps and lakes during waterproofing after installation of the fittings;

figure 2 schematically shows the well of the pipeline in swamps and lakes with reinforced seals installed;

figure 3 schematically shows the well of the pipeline in the swamps and lakes after waterproofing.

The method of waterproofing the well in the swamps and lakes is as follows.

Initially, in the welded well, consisting of a type frame and sheet sheathing, forming a cylindrical box, well 1, through which a pipe 2, located in the swamp 3, connected with the walls 4 of the well 1 passes, an element of hermetically fixed connection of the body 1 of the well 1 to the pipe 2 was installed with the possibility its scope. The element of the hermetic fixed attachment of the body of the well 1 to the pipeline 2 in the form of a half-coupling 5, which is a half round hollow, cut along the longitudinal axis XX, of the cylinder 6 with the hole 7, is hermetically connected to the body so that the lower hole 8 in the bottom of the body of the well 1 and hole 9 in coupling half 5 coincided. In the well 1 of the pipeline 2 at the location of the valve 10, a sleeve 11 was installed on the coupling half 5, the walls 12 of which were previously cleaned and subsequently degreased. Through the hole 9 in the wall 13 of the coupling half 5, mounted on the pipeline 2 with clamps 14, after cleaning the walls 12 of the sleeve 11, the latter was equipped with a hydraulic seal 15 made of Maxplag material, which is a hydraulic cement mortar designed to instantly stop water leaks that filter through concrete and stone structures, while the setting of the material occurred within 4 minutes, and increased in volume, waterproofing the surface. From the characteristics of the material it is known that in the future it does not crack, does not shrink and does not lose its strength characteristics during hardening, which increases reliability, efficiency and durability. Among other things, such a water seal made of the Maxplag material is highly environmentally friendly, since the water seal material does not contain chlorides, is non-toxic and can be used in direct contact with drinking water, and the mechanical characteristics of the water seal made of the Maxplag material are comparable to the characteristics of concrete, and in some cases even surpass them, and the material easily grasps with water and is easy to use, which increases the operational capabilities of water seals and the entire process of waterproofing a well pipe ryoda in swamps and lakes in general. After the hydraulic seal 15 hardened, the fitting 16 was installed in it, through the openings 17 of which the hydraulic composition 18 was pumped, which was used as the expanding Aquidur material. After fixing (hardening) of the hydraulic composition 18, a gland 19 was installed on the sleeve 11, which was made of a sealant made on the basis of modified Vitrafin Bond silyl, a paste-like adhesive having high chemical resistance and excellent adhesion to most traditional building materials, which can be applied even with negative temperatures, and even on wet surfaces, does not drain from vertical surfaces, then the gland is reinforced with a 20 mesh in two layers. In the aggregate of features, such an oil seal also improves the operational capabilities of the method, reliability and durability. Following this, on the upper part 21 of the coupling half 5, located directly in the well 1 of the pipeline 2, and on the reinforced gland 19, a second water seal 22 of the material “Maxplag” was installed, on which, after setting (hardening), a protective coating 23 was installed to protect the gland 19 from mechanical damage, which was used as the material "Maxil Flex". The protective coating using the elastic material “Maxxil Flex” made it possible to ensure complete waterproofness, even under conditions of high negative water pressure, since it compensates for shrinkage deformation and blocks hair cracks, it works like an elastic membrane, since it is also resistant to atmospheric pollutants and the saline corrosion effect water and the effects of alternating freezing / thawing cycles. The coating of the horizontal part (floor) and part of the vertical surface of the well provides waterproofing of the underground structure under negative hydrostatic pressure of the groundwater, high durability of the coating eliminates the cost of repair work, which significantly reduces operating costs, improves the reliability and efficiency of waterproofing operational capabilities pipeline wells in swamps and lakes.

When testing the inventive method of waterproofing a pipeline well in swamps and lakes through a nozzle 16 with a hole 17, the hydraulic composition was also pumped, which was used as an expanding material 18 Vitrapur, which had a fast gelation time when interacting with water for up to 4 minutes, which was a non-shrinking material in moisture-saturated environments and at the same time quickly filling all cracks, pores, caverns of the structure, which allows to increase the operational capabilities of the proposed method, its reliability and efficiency activity.

The inventive method was tested in the Uvat region in the Tyumen region at the Kalchinskoye field of TNK BP limited liability company, as well as in the village of Ust Kut, Irkutsk region, at OJSC Verkhnechonskneftegaz.

The application of the proposed invention “Method of waterproofing a well in a swamps and lakes” leads to increased durability, reliability and efficiency of waterproofing a well in a swamps and lakes, as well as to increase operational capabilities.

Claims (5)

1. The method of waterproofing the well of a pipeline in swamps and lakes, when the body of the well is connected to the pipeline, using an element in the form of a half coupling, which is half a circular hollow cylinder cut along the longitudinal axis, which is fixed to the pipeline with the possibility of its coverage, characterized in that in the well of the pipeline, at the location of the valve, on the half-sleeve install the sleeve through the hole in the wall of the half-coupler mounted on the pipeline with clamps, then clean the walls of the sleeve and install it in hydro a scraper, in which subsequently fittings are installed, through which the hydraulic composition is pumped, which use the expanding Akvidur or Vitrapur materials, after which a gland is installed on the sleeve, which is reinforced with a double mesh, and then on the upper part of the coupling half, located directly in a well of the pipeline, a second water seal is installed, on which, after setting, a protective coating is laid. 2. The method of waterproofing the well of a pipeline in swamps and lakes according to claim 1, characterized in that the water seals are made of material "Maxplag". 3. The method of waterproofing a well in a swamp and lake according to claim 1, characterized in that the walls of the liner are cleaned, followed by degreasing. 4. The method of waterproofing a pipeline well in swamps and lakes according to claim 1, characterized in that the gland is made of sealant based on modified Vitrafin Bond silyl. 5. The method of waterproofing a pipeline well in swamps and lakes according to claim 1, characterized in that the material "Maxil Flex" is used as a protective coating.

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