RU178740U1 - EXTERNAL PIPELINE RESTORED BY THE TROUBLELESS METHOD - Google Patents

Abstract

The utility model relates to the field of construction and repair of external pipelines for various purposes, including from steel, cast iron, concrete, fiberglass, polymer. The outer pipeline restored by the trenchless method contains an old pipe in the form of an outer layer and at least one layer of a quartz-cement composition located inside it. At the same time, on the inner surface of the old pipe, it has an intermediate layer made in the form of a cylindrical reinforcing frame, having a voltage of 9.4 to 19.1 N / cm rolled from a composite mesh web made with interlocking reinforcing cells from 50 to 200 mm in size rods. This provides increased strength and corrosion resistance of the inner part of the restored pipeline, the properties of which exceed the corresponding properties of a new pipeline that does not have a reinforced coating.

Description

The utility model relates to external pipelines for various purposes, restored without opening by applying an internal coating to the pipe. The restored pipeline can be made of any material, including from steel, cast iron, concrete, fiberglass, polymer.

The prior art various pipelines, restored by the method of trenchless repair, for example, from US 20160178108 A1, 06/23/2016 it is known to use a polymer sleeve impregnated with a binder based on epoxy resin. A sleeve from a radially expandable polymer mesh is introduced inside the pipe being restored, onto which a protective layer based on epoxy resin is applied.

However, in pipelines restored by this method, the strength of the internal coating is not ensured due to the lack of the necessary strength properties of the polymer sleeve, and they turn out to be very expensive, including due to low maintainability.

The most widespread is the pipeline, the restoration of the inner surface of which is carried out by coating with a sand-cement mixture. So, for example, from RU 2037082 C1, 06/09/1995 a pipeline is known that has been restored by applying cement-sand coatings to the inner surface by centrifugal spraying.

The disadvantage of this pipeline is the unevenness of the coating both in cross-section and in length, and the complexity of the restoration process due to the inability of facing devices to apply coating at bends (bends), the small length of the treated area in one production cycle and the bulkiness of the equipment used.

The closest analogue of a pipeline restored by a trenchless method is the pipeline disclosed in RU 2324103 C1, 05/10/2008, which is restored by cleaning the inner surface of a worn pipe from corrosion and applying at least one layer of a quartz-cement composition to it using an inertial thrower, then carry out a telemetric inspection of the restored pipe. A new pipe is formed in the channel of the repaired pipeline, which is used as a formwork in the manufacture of a new pipe, from successively applied layers made of polymer-cement compositions of the group, each of which carries a functional purpose and functional physical and mechanical characteristics and works in a finally formed pipe as a single system design. One of the layers can have a reinforcing function due to the content of polyacrylic, carbon fiber or metal fiber in it, filling technological grooves in the previously applied coating with the formation of longitudinal stiffeners.

The disadvantage of this pipeline is that the use of fiber in concrete does not form a strong bulk elastic reinforcement cage, but only increases the crack resistance of the coating and does not provide the required functional strength of the restored pipeline.

A technical problem, the solution of which is provided by the proposed utility model, is the creation of a restored pipeline with specified characteristics in accordance with the calculations based on existing regulatory documents for reinforced concrete structures (SNiP, GOST, STO, etc.).

The technical result obtained by using the proposed utility model is to increase the strength and corrosion resistance of the inner part of the restored pipeline, the properties of which exceed the corresponding properties of a new pipeline that does not have a reinforced coating.

The specified technical result is achieved by the fact that the outer pipe restored by the trenchless method contains an old pipe in the form of an outer layer and at least one layer of a quartz-cement composition located inside it, while on the inner surface of the old pipe it has an intermediate layer made in the form of a cylindrical a reinforcing carcass having a voltage of from 9.4 to 19.1 N / cm ² and rolled from a composite mesh web made with cells from 50 to 200 mm in size from interwoven reinforcing bars.

The diameter of the cylindrical reinforcing frame corresponds to the inner diameter of the pipe being restored taking into account its geometric defects, and the length corresponds to the length of the pipe section being restored.

If it is necessary to apply the second and subsequent layers of quartz-cement mixture, an additional reinforcing frame is installed on each previous layer. In addition, if necessary, they additionally measure the mechanical strength and hydraulic tests of the restored pipe.

To repair significant damage directly to the pipeline, accessible and popular building materials are used, for example, Portland cement grade M500 according to GOST 10178-85, fine-grained quartz sand according to GOST 8736-93 and TU 39-1554-91.

The composite reinforcement used to manufacture the mesh is a power rod that determines its physicomechanical characteristics, with a periodic profile uniformly located on the surface and at an angle to its longitudinal axis, formed by winding a layer of continuous fiber, for example glass fiber, basalt fiber, carbon fiber, on the power rod aramid fiber or combinations thereof. A thermoset or polyester resin is used as the filler of the composite.

Reinforcing rods can have a different periodic profile, providing additional strength of adhesion of the rods to concrete, including after exposure to aggressive environments.

From the rods of composite reinforcement in the proposed utility model, a web of a reinforcing mesh with a mesh size of 50 mm to 200 mm is made by weaving, depending on the diameter of the pipe being restored and the thickness of the coating applied. The diameter of the rods and the size of the cells are selected taking into account the desired properties of the mesh when it is rolled up to obtain a three-dimensional frame before being placed inside the pipe. Provided that it is technically possible to access the pipeline from its end part, a continuous rolled sheet of reinforcing mesh is used over the entire length of the pipeline being restored.

The reinforcing frame must have a design strength and elasticity to form a layer of a quartz-cement composition applied over it. The force pressing the mesh to the inner surface of the pipe, determined by the elasticity of the fabricated frame, must guarantee its tight fit, taking into account possible geometric defects of the inner surface of the pipeline. In addition, the created tension of the carcass rods inside the pipe when they are bent causes additional conditions for its strong adhesion to the pipe surface and with the carcass reinforcing rods in the concrete layer formed on the elastic carcass.

The value of the required voltage of the frame to ensure its properties mentioned above, ranging from 9.4 N / cm ² to 19.1 N / cm ² , based on which the parameters of the reinforcing frame are selected, in particular, the diameter of the composite rods and the size of the cells are determined previously experimental by depending on the specified properties and purpose of the restored pipeline. The thickness of the applied quartz-cement layer, the specific composition of the quartz-cement composition containing Portland cement, fine-grained quartz sand and, if necessary, technological additives, the number of mesh layers and the quartz-cement layer are also selected depending on the technical requirements for the restored pipeline.

Calculation of the characteristics of the restored pipeline is carried out in accordance with the requirements for reinforced concrete structures, in accordance with applicable standards.

The combination of the above-mentioned characteristics of the layers provides the calculated strength of the finished pipe in accordance with the adopted regulatory documents.

Application of a quartz-cement composition layer over the reinforcing cage is carried out using an inertial thrower by centrifugal spraying of a quartz-cement mixture (cement-sand mortar). The minimum thickness of the protective layer depends on the diameter and material of the pipes, and the required one depends on the age of the pipes, wall thickness and physical condition.

The selected layer thickness is achieved by changing the speed of movement of the propelling unit in the pipe at constant values of the productivity of the pump supplying the cement mortar, and the speed of rotation of the propelling head.

Pipeline recovery is carried out in several stages:

1. Localization of the place of work.

2. Tele inspection and troubleshooting, during which the determination and elimination of defects of the inner surface that impede the installation of the frame of the reinforcing mesh.

3. Mechanical and / or hydraulic cleaning of the pipeline.

4. Installation of a prefabricated cylindrical reinforcing frame made of composite reinforcement in the form of a rolled composite web with a mesh size of 50 mm to 200 mm, obtained from rods of composite reinforcement, with a given strength and elasticity over the entire length of the pipeline section, which corresponds to the necessary technological characteristics of the pipeline .

5. Visual assessment of the fit of the first layer of composite frame, assessment and elimination of possible deformation of the frame layer due to irregularities of the old pipeline.

6. Application of a quartz-cement mixture by an inertial thrower with a layer of 10-20 mm and closing of the area for 24 hours in order to ensure a stable process of hydration of the quartz-cement mixture.

7. Preparation for completion of the work, re-inspection, inspection of the layer, if necessary, hydraulic tests in accordance with the requirements for the finished pipeline.

Depending on the required characteristics, the quartz-cement reinforced layer can be applied repeatedly, repeatedly, thereby achieving the required characteristics of the restored pipeline. At the same time, the old pipeline, which was used as the primary case for the construction of the pipeline at the time of the start of operation, loses its significance, and its further state does not affect the pipeline.

The composite three-dimensional frame is not susceptible to corrosion, and the pipeline restored with its use is practically not susceptible to aging and deterioration of performance over the entire life cycle, its service life is limited solely by its throughput. The condition of the old pipeline and the type of pipe are practically irrelevant, while, for example, a pressureless pipeline can be made pressureless. The pipeline has high maintainability without the use of technically sophisticated specialized equipment in case of technological damage.

The depth of the pipes and the types of soil surrounding the pipeline can be any. Restoration works are notable for their ease of implementation and low cost - significantly less than the cost of new construction. The thin and smooth surface of the lining provides a reduction in hydraulic resistance and pressure losses in the pipelines. After coating, the pipeline can be put into operation in 3-5 days, while the coating remains stable for 50 years of operation, and over time, the properties of the protective coating only improve, it becomes more dense, similar to stone, which ensures its stable hygienic and bactericidal properties.

Claims (1)

An outer pipeline restored by a trenchless method, containing an old pipe in the form of an outer layer and at least one layer of a quartz-cement composition located inside it, characterized in that on the inner surface of the old pipe it has an intermediate layer made in the form of a cylindrical reinforcing frame having a voltage of from 9.4 to 19.1 N / cm ² and a composite mesh rolled up from the web, made with cells from 50 to 200 mm in size from interwoven reinforcing bars.