RU2348755C1 - Protective wall of grooved panels - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention pertains to transport, industrial - civil construction and may be employed in hydro - technical structures of various purposes. Protective wall of grooved panels includes assembly elements of a wave -like in the plan profile, each whereof has shelves arranged on opposite sides of longitudinal axis of the wall and parallel to this axis offset against each other and connected between each other by tilted walls set at an obtuse angle to the shelves. Joint elements are performed on the spare ends of the shelves forming interlocks. Assembly elements are made cold - bent, obtuse angle of walls tilted to the shelves is made with R radius of bending not less than 20mm. Through cut metal pipe is welded on the spare end of one of the shelves arranged on different sides of the assembly element, and a steel profile element is welded on the spare end of the other shelf connecting with each other forming grooved joint. Reinforcing - ground construction is formed in the behind the wall part presenting alternating layers of compressed draining ground in the iron ring of the reinforcing composite material, foundation whereof lies on prepared leveling layer of gravel - pebble soil, and front edges of module sections are deepened into natural foundation down to the design mark.

EFFECT: decreased metal consumption of grooved walls and their increased specific bearing capacity, cost - efficiency, versatility, reliability, durability, meeting requirements of environmental protection.

3 cl, 3 dwg

Description

The invention relates to transport, industrial and civil construction and can be used in hydraulic structures for various purposes, as well as in pile foundations, fences, retaining walls, bridge abutments, dam structures, embankments during road expansion and during construction in complex geotechnical and seismic engineering conditions.

In recent years, in the Russian Federation and a number of other foreign countries, metal structures of sheet pile walls from:

- flat prestressed sheet pile, steel and single-anchor reinforced concrete;

- various profile: trough, t-shaped, undulating.

Sheet pile walls, consisting of prefabricated elements of shelves of a undulating profile, are formed by connecting them in series by inserting a cam located at one end of the protrusion of one element into an arc-shaped holder of another element, and in each pair the connected elements are located symmetrically with respect to the axis of the sheet pile wall.

No less widely used are retaining walls made of sheet piles with double locks located along their longitudinal edges or LARSSEN type locks that hold sheet piles assembled together by their longitudinal edges.

The disadvantages of such structures are welded sheet pile elements in the construction of sheet pile walls, which helps to reduce their specific bearing capacity, therefore, they do not have sufficient operational reliability.

Currently, there is no industrial method for rolling piles having LARSSEN type grips with shelves more than 20 mm thick.

Known sheet pile wall made of prefabricated metal elements of a undulating profile, each of which has shelves located on opposite sides of the longitudinal axis of the wall, parallel to this axis with offset from each other and interconnected by inclined walls located at an obtuse angle to the shelves parallel to the longitudinal axis having at the free ends of the extreme shelves forming adjacent joints adjacent lock clips into which the connecting element is inserted in the I-shaped form (US patent No. 48-1908, class. EV 3/04, 1973).

The disadvantages of this sheet pile wall is a decrease in the productivity of work in connection with welding operations during the assembly of metal elements, a decrease in the specific bearing capacity, and an increase in the metal content of the sheet piling.

When constructing retaining walls, it is often necessary to create a joint that excludes the possibility of moving the tongue-and-groove elements of interconnected locks relative to each other in the longitudinal direction. In US patent No. 498-1540, the year 1991, a method is proposed for the fixed connection of locks, according to which the inner cavity of the front in the direction of the length of the retaining wall of the castle is filled with a binder (glue) and a special calibrated part is used - a caliber that protects the glue and prevents soil from entering and water into the inner cavity of the castle.

The main disadvantage of this method is that the binder filling the internal cavity of the castle makes it difficult to remove the caliber from it.

The closest analogue of the proposed is a sheet pile wall, consisting of prefabricated undulating elements in terms of profile, each of which has shelves located on opposite sides of the longitudinal axis of the wall parallel to this axis with offset from each other and connected by inclined walls located at an obtuse angle to the shelves parallel to the longitudinal axis, with the formation of extreme inclined half-walls having, at their free ends, a cam and a clip, respectively, forming castle joints.

This is a well-known sheet pile wall, in which the clip in each element is located on the outer surface of one cantilever half-wall, and the cam on the inner surface of the other, forming castle joints, and therefore there is no tight fit, therefore, water, sand, as well as the proposed connection of the sheet piling elements leads to the sliding of the elements along the front of the sheet piling wall to the width of the cam, as a result of which the specific bearing capacity of the wall is reduced (patent of the Russian Federation No. 2151236, class E02D 5/08 , 2000).

The objective of the present invention is:

- reducing the metal content of sheet pile walls and increasing their specific bearing capacity;

- the exception in the castle connection the possibility of moving interconnected elements of the sheet pile walls relative to each other in the longitudinal direction;

- increasing the stability of sheet pile walls to dynamic loads during complex natural processes, including in earthquake-prone areas;

- the exclusion of welded mounting joints, since the tongue-and-groove panels from cold-formed profiles;

- unification of the standard size of sheet piling elements;

- reduction of energy resources and improvement of environmental properties;

- increase the efficiency, versatility and reliability of the protective walls of the tongue-and-groove panels of the trapezoidal trough in terms of profile.

The solution to this problem is achieved by the fact that the protective wall consists of tongue-and-groove panels, which include prefabricated undulating elements in profile plan, each of which has shelves located on opposite sides of the longitudinal axis of the wall and parallel to this axis with offset relative to each other, connected by inclined walls located at an obtuse angle to the shelves, while at the free ends of the shelves made elements of the connection, forming a castle connection, and the prefabricated elements are made cold-bent, in which the angle of the inclined walls to the shelves is made with a bending radius R of at least 20 mm, a metal pipe with a slot is welded on the free end of one of the shelves located on opposite sides of the prefabricated element, and an element of a square steel profile is welded on the free end of the other shelf connecting with each other, form a sheet pile lock, in addition, an armored structure is formed in the fixed part of the retaining wall in the form of alternating layers of compacted drainage soil in the cage of a reinforcing composite mother la, the base of which lies on the alignment layer prepared by pebble gravel and soil, and facial faces modular sections recessed in a natural base to the design level.

In the protective wall, metal shelves are made with the same section S of at least 6, 10, 12, 14 ... mm.

Reinforcing composite materials for armored construction can be geotextile material: woven or non-woven, mainly synthetic, as well as polymer or metal mesh, sheet material or combinations of geotextile materials.

The given set of features, as shown by a comparative analysis of this technical solution in comparison with traditional designs, provides a technical result, expressed in stability, efficiency, economy of the proposed protective wall of tongue and groove panels, its optimal ratio of weight and bearing capacity, reducing the time of its construction, simplicity and the speed of installation, less laborious construction, a sufficiently high durability, compliance with environmental requirements .

Despite the rather high unit cost of metal elements made of sheet steel of domestic grade 09G2S-4 for conventional execution, 09G2S-5 for northern “A”, 09G2S-7 for northern “B”, the proposed protective wall made of sheet piling is significantly more efficient and economical in construction compared to traditional designs and their castle joints.

The invention is illustrated by drawings, where:

figure 1 shows a protective wall of a tongue-and-groove panel with an armored structure in the wall;

figure 2 is a profile of a cold bent sheet pile;

figure 3 is the recommended locking connection.

The protective wall 1 consists of a tongue-and-groove panel 2 of cold-formed profiles, which contains shelves 3 connected by inclined walls 4 located at an obtuse angle 5 with R bending of at least 20 mm to shelves having a welded lock element on one free end — a hot-rolled pipe 6 with a diameter of at least 68 mm, a wall thickness of at least 12 mm made of steel grade C _t 3 _sp. with a slot, and at the other end, a welded element from a square profile 7 of long products with a cross section of at least 30 × 30 mm from steel grade C _t 3 _sp. , With _t 5 _sp. . Sheet pile walls are buried in the natural base by at least 2.5 m.

Sheet pile metal structures of capital structures with a long service life are subject to protection against corrosion of the surfaces of metal elements, in whole or in part, depending on the varying degrees of exposure to aggressive media - in water, soil, atmosphere and transition zones.

The coating is fully applied at the factory.

An armored structure is formed in the stiffened part of the protective sheet pile wall in the form of alternating layers 8 of compacted drainage soil wrapped in panels 9 of a reinforcing composite material.

Reinforcing composite materials for armored construction are geotextiles: woven or non-woven, mainly synthetic, polymer or metal mesh, sheet material or combinations of geotextiles. Natural base 10, leveling layer 11.

The construction of the protective wall from the tongue-and-groove panels 1 is carried out as follows: the construction site is prepared before the construction and installation works are carried out.

On the natural base 10, along the entire base of the retaining wall, a leveling layer 11 of 200-300 mm thick gravel-pebble soil is poured.

On a compacted leveling layer 11, modular sections are assembled from metal panels 2 from sheet metal, cold-formed wavy in terms of a profile with a thickness of at least 6, 10, 12, 14, ... mm, a height h of at least 400 mm, a width of b of at least 1200 ± 5 mm, which by means of locking joints form a retaining sheet pile wall 1.

The modular sections are immersed with a vibratory driver in a natural base 10 to a depth of at least 2.5 m.

To ensure maximum stability and operational safety of the proposed protective wall from sheet piling panels 1, simultaneously with the assembly of metal modular sections from sheet piling panels 2 (from bottom to top), an armored structure is constructed in the stalled part of the retaining wall in the following sequence:

- on the prepared leveling layer 11 at a distance of not less than 0.3-0.5 m from the fastened part of the tongue-and-groove panel 2, from the cold-formed profiles, the cloth 9 of the reinforcing composite material is spread over the entire area of the fastened part of the modular sections simultaneously;

- 9 reinforcing composite material is poured onto a spread sheet 9 (dump trucks or graders in a single technological process, with the assembly of modular sections over the entire area in the enclosed part of the protective wall) drainage soil with a layer of 8 at least 400 mm thick;

- the sprinkled, leveled soil is compacted to a level of at least 0.95 of the maximum standard density (with a roller, a laden dump truck, mechanical or manual rammers);

- reinforcing panels 9, which are previously released over the outer face of the reinforced soil structure, are laid on the compacted layer 8 of the drainage soil, which are fixed on the underlying soil every 1.5 m with pegs or brackets.

Subsequent assembly of metal sheet piling panels 3 and the formation of subsequent layers 8 of armored construction is carried out in the same sequence as the previous layers to the design level.

At the same time, for the stability of the base and as anti-deformation measures from the stalled part of the sheet pile wall 1 from cold-formed profiles at a distance of at least 0.3-0.5 m to the front face of the constructed armored structure, a drainage 12 is constructed to collect and drain surface water (from drainage soil ) with a polymer pipe 13, which will eliminate the accumulation of water, and therefore the related characteristics of the face of the armored structure.

Claims (3)

1. A protective wall made of tongue-and-groove panels, including prefabricated undulating profile elements, each of which has shelves located on opposite sides of the longitudinal axis of the wall and parallel to this axis with offset relative to each other and connected by inclined walls located at an obtuse angle to the shelves, while on the free ends of the shelves made connection elements forming a castle connection, characterized in that the prefabricated elements are made of cold-formed, obtuse angle of inclined walls to the shelves is made n with a bending radius R of at least 20 mm, a metal pipe with a slot is welded on the free end of one of the shelves located on opposite sides of the prefabricated element, and an element of a square steel profile is welded on the free end of the other shelf, which, when connected together, form a sheet pile the castle, in addition, an armored structure is formed in the frozen part in the form of alternating layers of compacted drainage soil in a ferrule of a reinforcing composite material, the base of which lies on the prepared leveling pebble gravel-bed soil, and facial faces modular sections recessed in a natural base to the design level. 2. The wall according to claim 1, characterized in that the metal shelves are made with the same section S of at least 6, 8, 10, 12, 14 mm. 3. The wall according to claim 1, characterized in that the reinforcing composite materials for the reinforced ground structure are geotextile material, woven or non-woven, mainly synthetic, as well as polymeric or metal mesh, sheet material, or a combination of geotextile materials.

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