RU122147U1 - COMPOSITE PROTECTIVE MAT - Google Patents

Abstract

1. A protective composite mat, designed to protect the insulation of main pipelines, characterized by the presence of one or more protective layers, characterized in that it is made of a multilayer material that includes at least three thermally bonded layers of various materials: nonwoven material, reinforcing mesh and protective film. ! 2. Protective composite mat according to claim 1, characterized in that the reinforcing mesh is made of polypropylene. ! 3. A composite protective mat according to claim 1, characterized in that the nonwoven material is non-oriented endless polypropylene or polyester fibers, mechanically bonded. ! 4. Protective composite mat according to claim 1, characterized in that the protective film is made of polyethylene.

Description

The inventive utility model relates to the field of construction and operation of trunk pipelines of the oil and gas transportation system.

Composite protective mat is used to protect the insulated surface of pipelines with a diameter of up to 1420 mm from mechanical damage caused by exposure to reinforced concrete weighting agents such as UBO, UBO-M (BUOT), UBP and UBKm during the construction, reconstruction and overhaul of main pipelines in flooded, flooded and waterlogged terrain.

Figure 1 illustrates the purpose of a composite protective mat (element 1), which is laid between the surface of the pipeline (element 2) and a reinforced concrete weighting agent (element 3).

As an analogue, a protective mat is known, which is made from rolled brizol, which is a mixture of petroleum bitumen of different viscosity, crushed rubber from worn-out car tires, filler and plasticizer. (Approximate composition of brizol,%: bitumen - up to 60, rubber - up to 30, plasticizer - up to 2 ... 5, asbestos - up to 12).

Source of information: RD 39R-00147105-028-02 "Instructions for Ballasting Pipelines Using Anchor Injectors", Date of Introduction 2002-11-01, UFA 2002.

RD 39R-00147105-028-02 determines the method of manufacturing rugs - directly at the place of work from rolled brisol, and this is their drawback, since this method of manufacture requires certain technological conditions, which is not always implemented in practice.

Another, closer analogue of the claimed utility model is known, which is a multilayer synthetic mat laid on an insulated pipe under reinforced concrete weighting materials to protect the insulation coating of underground pipelines with a diameter of 377-1420 mm, ballasted with reinforced concrete weighting compounds like UBK-M, UBO and UBO-M. Source of information: _kovrik. The layers of the mat are usually made of geotextile non-woven material consisting of non-oriented endless polymer fibers connected mechanically (needle-punched). The design drawback is that the protective function of the rug is ensured by the use of the required number of layers of geotextile non-woven material, limited by the physicomechanical properties of the material and does not fully guarantee the protection of the insulation coating of the pipeline from the effects of various types of weighting agents.

To significantly improve the quality of protection of the insulating coating of an underground pipeline, it is necessary to expand the functionality of the protection layers, namely: significantly increase the strength of the protective mat and ensure the elasticity of the protective layer of the mat.

It is such a technical problem that is solved by the claimed utility model - a composite protective mat (hereinafter - ZKK). In this case, for the manufacture of ZKK, a multilayer material is used, consisting of at least 3 qualitatively different layers:

- a layer made of non-woven material similar to that used in said prototype;

- reinforcing mesh;

- protective film.

All three layers are thermally bonded. The implementation of the layers of various materials allows you to get a qualitatively different protection compared to the above counterparts.

Thus, the claimed utility model solves the technical problem, consisting in a significant increase in the quality and reliability of the protection of the pipeline in the places of installation of reinforced concrete weighting agents. The receipt of this technical result is due to an essential feature of the claimed utility model consisting in the presence of at least three layers of different quality, thermally connected into one multilayer material.

The thermal connection of the nonwoven material, the reinforcing mesh and the protective film provides an increase in the service life of the ZKK reliability of the pipeline surface protection provided by it.

The layer of non-woven material performs the function of protecting against damage by reinforced concrete weighting agents, similar to the function provided in the prototype: non-woven material provides a snug fit to the surface of the insulation coating of the pipeline, gives the elastic properties of the protective mat. As for the reinforcing mesh, its functional purpose is to provide a significant improvement in the strength properties of the ZKK. The protective film performs the function of additional protection against damage by exposure to weighting agents.

The characteristics of the materials forming the ZKK layers are shown below in Table 1.

Table 1 No. Name of indicator Characteristic Reinforcing mesh one Cell size mm 15 × 15 2 Surface density, g / m ² up to 25 3 Operating Temperature ° C -70 to 120 four Material Polypropylene Protective film one Density, g / m ² 200 2 Operating temperature range, ° C from -50 to 80 3 UV stabilization period, months, min 36 four Light transmission according to NF 607-162,% 90 5 Material Polyethylene Non woven fabric one Surface density, g / m ² 400 2 Thickness at a pressure of 2 kPa,% of h ₀ 87 3 Deviation by weight,% ± 5 four Elongation at break along the length / width,% 110/110 5 Material Polypropylene or polyester Note - h = (h ₀ -h ₁ ) / h ₀ × 100% (GOST 15902.2), where h is the thickness of the sample at a pressure of 2 kPa,%; h ₀ is the initial thickness of the sample, mm; h ₁ - sample thickness at a load of 2 kPa, mm

The physicomechanical characteristics and the number of ZKK layers can be changed depending on the type of weighting material used for ballasting and the operating conditions of the pipeline for which ZKK is used for protection.

Thus, the claimed utility model is a multilayer structure and is characterized by the presence of at least three layers forming the ZKK. Figure 2 illustrates the structural elements of the ZKK: a layer of nonwoven material, designated in Figure 2 as element 4, a layer of reinforcing mesh (element 5) and a layer of protective film (element 6). These structural elements are interconnected thermally.

Figure 2 shows the relative position of the structural layers of the ZKK relative to the surface of the insulating coating of the pipeline: non-woven material (directly in contact with the coating of the insulating pipeline); reinforcing mesh; protective film. As a rule, ZKK protective mats have a rectangular shape, but, generally speaking, they can be of an arbitrary geometric shape, determined by the geometric parameters of reinforced concrete weighting agents.

Although the real utility model has been described using specific options for its implementation, the possibilities of numerous modifications of this utility model that will not go beyond the scope of its legal protection determined by the attached formula will be clear to specialists.

Claims (4)

1. Composite protective mat, designed to protect the insulation of pipelines, characterized by the presence of one or more protective layers, characterized in that it is made of a multilayer material, including at least three thermally connected layers of various materials: non-woven material, reinforcing mesh and protective film. 2. The composite protective mat according to claim 1, characterized in that the reinforcing mesh is made of polypropylene. 3. The composite protective mat according to claim 1, characterized in that the non-woven material is an undirected endless polypropylene or polyester fiber connected mechanically. 4. The composite protective mat according to claim 1, characterized in that the protective film is made of polyethylene.