RU159874U1 - PILING WITH ANTI-RADIUS SHELL OSPT "Reline" - Google Patents

Abstract

1. A pile with a non-porous coating of the outer surface in the middle part of the pile, a sheath made of polymer modified heat-shrink material, rigidly fixed on the pile, and the diameter of the sheath before assembly with the pile is at least 10% larger than the diameter or dimensions of the cross section of the pile, made with the possibility of shrinkage when heated to a diameter, it is 15-50% less than the diameter or cross-sectional dimensions of the coated pile, characterized in that an adhesive layer is placed between the shell and the pile. 2. A pile according to claim 1, characterized in that high-molecular-weight modified polyethylene, high molecular weight polyethylene, sevilen, compositions of polyethylene or sevilen and other thermoplastic polymers are used as a non-polymeric thermoshrinkable material. A pile according to claim 1, characterized in that thermoplastic compositions based on polymer and combined polymer-bitumen materials, for example, based on SEVA, are used as an adhesive layer. Pile according to claim 1, characterized in that the adhesive layer has a thickness of 0.5-1.5 mm

Description

The utility model relates to the field of construction in the Far North of oil and gas and other piping systems, supports of contact networks, buildings, structures and other infrastructure, in particular for the production of anti-dam piles, widely in demand in the main territorial development zones of Western Siberia, Yamal, etc. .

The foundations of various pipelines, power lines, low-rise buildings and other structures are deformed in the winter season due to the influence of frost heaving on the foundation piles. Due to the deformation (buckling) of the foundations, the normal operating conditions of the structures are violated, which often leads to their destruction. Frosty buckling of the foundations is due to an increase in the volume of soil freezing around them. The tangential forces arising in this case act on the foundation along the lateral surface and depend mainly on the degree of freezing of the soil to the foundation piles.

To reduce the influence of the forces of frost heaving of soils on supports and foundations, in particular, various anti-dam coatings are used in the form of a coating and / or wrapper of the side surface of piles in a layer of seasonal freezing-thawing of the soil.

Known piles with anti-dam coating, containing in the layer of seasonal freezing-thawing soil a polymer film coating of organosilicon compounds: liquids or enamels, which reduce the forces of soil freezing to piles by increasing the water-repellent surface properties. Organosilicon compounds of different composition are used for various pile materials. The application of the specified anti-dam coatings is carried out in rooms with a positive ambient temperature, in addition, the presence of exhaust ventilation is required. Surfaces under a covering have to be carefully cleaned. The anti-porcine coating is applied in several layers, after which it is aged for several days. The durability of such films is 15-25 years. (Recommendations on the use of organosilicon compounds in the fight against frosty buckling of foundations. Moscow, Stroyizdat, 1974, pp. 4, 9-13).

The disadvantages of this design piles and anti-dam cover are:

- high cost and low manufacturability of the design due to the fact that the coating directly in the field requires the creation of conditions with a positive ambient temperature for several days;

- toxicity and flammability of organosilicon enamels requires strict compliance with fire safety and industrial sanitation; working with enamels must have personal protective equipment;

- short term of operation.

In addition to organosilicon enamels, in order to reduce the influence of the forces of frost heaving of soils on piles, it is recommended that anti-foam coating them with a polymer film with one of the following high molecular weight compounds: epoxy-polyester compound K-PP; epoxy-polyester compound K-EPE; epoxy-polyamide compound K-EPA. (“Recommendations on the use of high-molecular compounds in the fight against frosty bulging foundations.” Moscow, “Stroyizdat”, 1969, pp. 4-7, 18.)

The disadvantages of these structures piles and coatings are:

- high cost and low manufacturability of the structure due to the fact that the coating requires the creation of conditions with an ambient temperature of at least 10 ° C for 1-10 days, which, in particular, complicates and increases the cost of manufacturing piles directly in the field;

- coating agents are toxic and require special precautions;

Also known are piles with anti-dam coating, containing in the layer of seasonal freezing-thawing of the soil a coating of plastic greases consisting of liquid oil, a solid thickener, additives and additives. The composition of greases is flammable. Such a lubricant is applied to the surface of the pile in order to reduce the freezing of soil to the walls of the pile and to reduce the friction force of frozen soil. To maintain lubrication on the pile surface, the entire lubricated surface of the pile is made with an additional coating with a plastic film or polyvinyl chloride plastic. ("Recommendations for reducing the tangential forces of frosty bulging foundations using plastic greases and organosilicon enamels." Moscow, NIIOSP, 1980).

The disadvantages of these structures piles and coatings are:

- the complexity, high cost and low manufacturability of the design due to the multi-stage technology of applying a multilayer coating on the surface of the pile and additional coating film,

- low quality coating due to the difficulty of fixing the film on the outer surface of the piles with grease to ensure high-quality coating;

- toxicity and flammability of greases;

- short term of operation.

The closest solution, selected as a prototype (US Pat. RF No. 89541), is a pile with anti-dam coating the outer surface in the middle of the pile, characterized in that the coating is a sleeve of polymer shrink material, rigidly mounted on the pile. As the polymer shrink material, a polymer composite material based on polyolefins (modified high and medium density polyethylene, high molecular weight polyethylene, sevilen, polyethylene or sevilen composition and other thermoplastic polymers) is used.

The disadvantages of this solution are the low quality of fixing / adhesion of the anti-dam shell on the pile due to the possibility of micro-gaps between the surfaces of the pile and the shell, including on sections of piles having welds, the presence of irregularities or mechanical deposits that change the diameter and shape of the cross section, which can lead to to the occurrence of foci of corrosion and further decommissioning of the pile and the anti-dam shell. There may also be a shear shear problem due to moisture entering the gaps between the surfaces of the pile and the sheath and a decrease in anti-weathering qualities, and possibly complete destruction of the anti-weathering sheath.

The objective of the proposed utility model is to improve the quality and durability of piles.

The technical result of the proposed solutions are:

- improving the quality of the pile by eliminating the likelihood of gaps between the surfaces of the pile and the anti-dam shell, which will eliminate the possibility of moisture penetrating into the space between the pile and the shell.

- increasing the durability of the pile by eliminating the likelihood of gaps between the surfaces of the pile and the shell, which will ensure a tight fit of these surfaces and holding the shell on the surface of the pile and will not allow the shear to move along the surface of the pile due to the tangential forces of frost heaving of the soil under the conditions of operation of the pile foundation.

The specified technical result is achieved by the fact that in the design of the piles with anti-dam coating on the outer surface in the middle part of the body of the pile, a sheath made of polymer anti-dam modified modified heat-shrink material is used, rigidly fixed to the pile, and the diameter of the sheath before assembly with the pile is at least 10% larger than the diameter or dimensions of the cross section of the piles, made with the possibility of shrinkage when heated to a diameter of 15-50% less than the diameter or dimensions of the cross section of the coated piles, respectively with a real utility model, an adhesive layer is placed between the sheath and the pile.

The indicated technical result is also achieved by the fact that a polymeric olefin shrinkable composite material based on polyolefins (modified high and medium density polyethylene, high molecular weight polyethylene, sevilen, polyethylene or sevilen composition and other thermoplastic polymers) is used as an anti-dam shell.

The indicated technical result is also achieved by the fact that thermoplastic compositions based on polymer and combined polymer-bitumen materials, for example, based on SEVA, are used as an adhesive layer.

The specified technical result is also achieved by the fact that the adhesive layer has a thickness of 0.5-1.5 mm

Placing an adhesive layer between the anti-flood cover and the pile allows the adhesive material to fill all surface defects of the pile and / or shell, including on the sections of piles having welded seams, the presence of irregularities and / or mechanical deposits, which eliminates the possibility of formation of gaps between piles during operation the surfaces of the pile and the anti-dam shell, which, in turn, will eliminate the possibility of moisture penetrating into the space between the pile and the shell, thereby improving the quality of the pile with thistle shell.

The elimination of the possibility of gaps between the surfaces of the pile and the anti-dam shell will also ensure a tight fit of these surfaces and the holding of the shell on the surface of the pile when longitudinal tangential forces of frost heaving of the soil occur under operating conditions of the pile foundation, which will increase the durability of the pile, by eliminating the shift of the anti-dam shell along the surface piles during its operation.

The use of sleeves made of modified thermoplastic material to create an anti-weathering wear-resistant coating on the outer surface of the pile allows using the “shape memory” characteristic of modified polymers. The use of a sleeve with a shape memory property, the diameter of which before assembly with the pile is at least 10 percent larger than the diameter or dimensions of the cross section of the pile, simplifies the method of forming an anti-foam polymer coating on the outer surface of the pile due to its ease of installation on the pile, including on the sections of piles having welds, the presence of bumps or mechanical deposits, changing the diameter and shape of the cross section, etc. The ability of the sleeve during heating to gradually decrease in diameter to a size of 15-50 percent less than the outer diameter or the cross-sectional dimensions of the lined pile ensures the formation of an anti-dam surface coating on the pile surface without folds and without gaps between the sleeve and the pile of any shape.

The use of a composite material based on polyolefins (modified high and medium density polyethylene, high molecular weight polyethylene, sevilen, compositions of polyethylene or sevilen and other thermoplastic polymers) as a polymer shrinkable material allows us to provide the “shape memory” property for the anti-dam shell, which results in a denser the adherence of the sheath to the surface of the pile, which together with the adhesive layer between the surfaces of the pile and the sheath will eliminate during the manufacture and operation of the pile, the probability of gaps between the surfaces of the pile and the shell, which, in turn, will eliminate the possibility of moisture penetrating into the space between the pile and the shell, thereby increasing the quality of the pile with a non-dam shell and its durability.

The use of thermoplastic compositions based on polymer and combined polymer-bitumen materials as an adhesive layer, for example, on the basis of SEVA, ensures filling of all irregularities between the surfaces of piles and shells due to the properties of these materials: high fluidity in the molten state and high adhesion to the surface as polar, and non-polar materials.

The implementation of the adhesive layer with a thickness of 0.5-1.5 mm allows you to provide the amount of adhesion between the outer surface of the piles and the inner surface of the anti-dam shell.

The data presented are determined experimentally. The experimental results are shown in Table 1.

The proposed design of the piles guarantees its high quality and durability, as well as being simple and technological in manufacturing. It is applicable for piles of any designs from any materials. The use of heat-shrink material for the specified sleeve provides ease of assembly of the anti-dam shell with the pile due to the fact that the internal diameter of the sleeve before heating exceeds the transverse dimensions of the pile. The use of an adhesive layer ensures a snug fit between the pile surfaces and the anti-dam shell. Moreover, the proposed materials of the shell and adhesive layer are environmentally friendly.

The proposed designs of piles and anti-dam cover have a wide temperature range of operation: from minus 60 degrees. From to plus 100 degrees. C, and the modified coating polymer is a more durable material compared to a plastic film: its tensile strength is 2.5 times higher, and its wear resistance is increased 30 times in comparison with ordinary polyethylene. The service life of the proposed adhesive materials is at least 50 years. The service life of such piles with the specified coating and adhesive layer is at least 50 years.

The proposed utility model is illustrated in the drawing, where in FIG. 1 shows the design of the proposed piles with an outer anti-dam shell and an adhesive layer between the pile and the shell.

The design consists of a pile 1 and rigidly connected to it in the middle part of the anti-dam shell 2 of a modified thermoplastic material. Between the specified parts placed adhesive layer 3.

An example of a specific implementation.

The pile is a steel pipe with a diameter of 530 mm. It is required to make a steel pile 9000 mm long with an anti-canopy sheath with a length of 2000 mm.

To obtain structural rigidity due to the adhesion forces of the surface of the sleeve with the surface of the pile, the correct choice of the size of the cross section of the pile in the delivery state, the diameter of the fully shrunk sleeve, the length of the section of the pile requiring coating, and the use of appropriate thermoplastic adhesive if necessary, are necessary. In the factory or at the installation site, in the lower part of the pile, a support pad of steel St3 6.0 mm thick is welded (not shown in the drawing).

To ensure high adhesion properties, surfaces covered with an anti-porous polymer heat-shrinkable coating are cleaned of contaminants, burrs and sharp edges are removed (smoothed).

After preparing the surface of the pile, an adhesive layer is applied to the placement site of the anti-dam shell, consisting of thermoplastic compositions based on polymer and combined polymer-bitumen materials, for example, based on SEVA of a given thickness. The adhesive is applied either in the molten state by brush, roller, spray, or wound in the form of a tape.

A sleeve made of a modified thermoplastic polyolefin of the PEVD brand with an internal diameter of 600 mm and a wall thickness of 4.0 mm is used as an anti-drift cover, which, when heated above 120 ° C, can decrease in internal diameter by 30% to 420 mm due to the “shape memory” property. The length of the heat-shrinkable sleeve is 2000 mm.

The shrinkage of the anti-douche casing in the form of a polymer heat-shrinkable sleeve on the pile body, which ensures full compression of the insulated product, occurs as a result of heating it to a temperature of at least 120 ° C with hot air or an open flame of a gas burner. In the field, shrinkage of the sleeve begins from the middle of the segment, heating the sleeve with ring motions. After the central part of the segment of the polymer heat-shrinkable sleeve is seated, having firmly fixed on the pile, the other parts of the sleeve are shrunk, sequentially moving the burner to the right and left. When the sleeve shrinks, its wall thickness increases in this case by 12% to 4.48 mm.

A seated sleeve of the anti-tummy cover should not be exposed to external mechanical stresses before it cools, as this can lead to its plastic deformation and destruction.

After shrinkage of the sleeve, the pile with the anti-casing cover is installed at the place of its operation in a pre-prepared well of a larger diameter. The pile is poured and fixed at the required depth.

The proposed design of piles and anti-dam coating OSPT "Reline" have a wide temperature range of operation: from minus 60 degrees. C to plus 100 deg. C, and the modified polymer is a more durable material compared to a plastic film: its tensile strength is 2.5 times higher, and its wear resistance is increased 30 times in comparison with ordinary polyethylene. The service life of such piles is more than 50 years.

Claims (4)

1. A pile with a non-porous coating of the outer surface in the middle part of the pile, a sheath made of polymer modified heat-shrink material, rigidly fixed on the pile, and the diameter of the sheath before assembly with the pile is at least 10% larger than the diameter or dimensions of the cross section of the pile, made with the possibility of shrinkage when heated to a diameter, it is 15-50% less than the diameter or cross-sectional dimensions of the coated pile, characterized in that an adhesive layer is placed between the shell and the pile. 2. The pile according to claim 1, characterized in that the modified polyethylene of high and medium density, high molecular weight polyethylene, sevilen, compositions of polyethylene or sevilen and other thermoplastic polymers are used as anti-foam polymer shrink material. 3. A pile according to claim 1, characterized in that thermoplastic compositions based on polymer and combined polymer-bitumen materials, for example, based on SEVA, are used as an adhesive layer. 4. The pile according to claim 1, characterized in that the adhesive layer has a thickness of 0.5-1.5 mm

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