RU208422U1 - Sheet pile - Google Patents

Abstract

The utility model relates to the field of construction in the field of engineering protection of the territory from dangerous geological processes (landslides, landslides, etc.) and hydraulic engineering construction of structures using metal sheet piles. The technical result of the utility model is to reduce the metal consumption of a sheet pile, increase its strength, and also simplifying its production. The specified technical result is achieved by the fact that the sheet pile for the construction of the sheet pile wall, the design of which is located along the line of a semicircle and contains profiles attached from the sides to create a lock connection, according to the utility model, is made of seven faces located along the line of the semicircle in in the form of chords connecting adjacent sections at an obtuse angle, while five internal faces have a width in the range of 0.95 - 1.05 of their smallest width, and two side faces are located at the edges and have a width of 1.9 - 2 , 1 times smaller than the smallest width of one of the five internal gr at the same time, profiles are attached to the two side faces to create a lock connection. to the other side face, is made with a side edge having a T-shaped cross section. The two side faces are interconnected by at least two transverse plates.

Description

The utility model relates to the field of construction in the field of engineering protection of the territory from hazardous geological processes (landslides, avalanches, etc.) and hydraulic construction of structures using metal sheet piles. Sheet pile walls formed from metal sheet piles can be used as retaining walls and engineering structures for various purposes, including in the construction of port and hydrotechnical coastal protection structures, bridge supports and excavation fences.

Sheet piles are designed to perform the function of fences, preventing the movement of the ground mass, protecting pits and trenches from the penetration of groundwater into them. Sheet piles are capable of withstanding significant loads and can be used in the construction of hydraulic structures.

Sheet pile fences can be used as an anti-seepage curtain to protect against flooding by groundwater; to prevent the occurrence of landslides during earthworks or during the operation of various buildings, to prevent the destruction of road and railroad embankments, to equip berths and wharves in ports, to strengthen coastlines; when building bridges and digging canals.

Sheet piles are installed in the form of solid walls, the individual elements of which are closely connected to each other. To do this, the design of sheet piles provides for the presence of special connectors for tool joints made of shaped profiles.

The presence of connectors for tool joints allows you to combine sheet piles with other types of sheet piles, for example, with a welded tubular sheet pile.

A trough-type sheet pile is known from the prior art, the structure of which includes a groove, locks and grooves. The material for the manufacture of the element is alloy steel 16KhG (cold stamping) or ordinary steel St3sp, St3kp hot rolling. The width of the trough-type sheet pile is in the range of 466 - 543 mm, and the height is in the range of 196 - 237 mm (http://stroilkino.ru/articles/12_shpunt-larsena-l5-i-l5-um/).

The disadvantage of such a sheet pile design is the limited width of the sheet pile, which leads to the use of a larger number of sheet pile elements and butt joints per running meter of the sheet pile wall, as a result of which the metal consumption of the sheet pile increases, the labor intensity of construction work increases and the construction time increases.

The closest analogue of the claimed device is a welded sheet pile, the shape of which is made in the form of a semicircle. The semicircular sheet pile contains profiles for creating an interlocking connection, one of which has a round shape, and the other profile is made in the form of an open ring (https://www.bkdelta.by/en/articles/sheet-pile-wall).

A method for manufacturing a semicircular sheet pile includes rolling sheet metal through rolls, compressing the resulting circular structure and welding to obtain a tubular closed loop. The resulting pipe is longitudinally cut into two equal parts and the locking elements are welded. The width of the semicircular sheet pile varies from 720 mm to 1420 mm, respectively, the height corresponds to the range from 360 mm to 710 mm (http://rosshpunt.ru/catalog.html).

The disadvantage of the design of the semicircular sheet pile is the laborious ineffective method of its manufacture, which is too energy-intensive.

Another disadvantage of a semicircular sheet pile is the dependence on the assortment of large diameter pipes, which makes it difficult to select the optimal option for the construction of a sheet pile wall.

The declared utility model is aimed at solving the shortcomings of the closest analogue. The problem to be solved by the creation of a utility model is to create a sheet pile structure based on a semicircular sheet pile, with an increased bending strength of the sheet pile and simplification of its manufacture.

The technical result of the utility model consists in reducing the metal consumption of the sheet pile, increasing its strength, and simplifying its production.

The specified technical result is achieved in that the sheet pile for the construction of the sheet pile wall, the structure of which is located along the semicircle line and contains profiles attached from the sides to create a lock connection, according to the utility model, is made of seven faces located along the semicircle line in the form of chords connecting adjacent sections at an obtuse angle, with five inner faces, have a width in the range of 0.95 - 1.05 of their smallest width, and two side faces are located at the edges and have a width of 1.9 - 2.1 times less, than the smallest width of one of the five inner faces, while profiles are attached to the two side faces to create a lock connection.

The first profile, connected to one of the side faces, is made with a side edge of a U-shaped cross-section, the end sections of which are bent inward and form an open cavity, and the second profile, connected to the other side face, is made with a side edge having a T-shaped transverse section.

The two side faces are interconnected by at least two transverse plates.

The method of manufacturing the declared sheet pile is simpler, more technological (less energy-intensive) and allows the manufacture of a sheet pile of a more durable structure with less metal consumption. The method includes the manufacture of a workpiece, which consists in dissolving a hot-rolled thick sheet of the workpiece to the required width, bending or profiling the workpiece, attaching the profiles of the tool joints to the workpiece.

The design of the declared sheet pile is illustrated by Figures 1-5.

FIG. 1 illustrates a general view of the claimed device.

FIG. 2 illustrates a top view of the claimed device, where:

1 - sheet pile construction;

2 - a profile for creating a lock connection, made with a lateral edge of a U-shaped cross-section;

3 - a profile for creating a lock connection of a T-shaped cross section;

4 - transverse plate (tightening);

5 - axis of the retaining structure (sheet pile wall).

FIG. 3 shows the execution of a sheet pile wall along a sinusoidal line using the claimed utility model, where:

6 - lock connection.

FIG. 4 shows the execution of an arched sheet pile wall using the claimed utility model.

FIG. 5 shows the implementation of a sheet pile wall of the combined type using the claimed device and, in addition to it, a round pipe (7).

Multifaceted sheet pile is made of hot-rolled steel sheet of a given width. The utility model provides for the possibility of using high-strength steel grades for the manufacture of sheet piles.

Due to the versatility, where the edges create stiffening ribs along the entire length of the pile, and the possibility of using high-strength steel grades, the structural strength of the declared utility model is increased in comparison with the structural strength of the closest analogue. The structure of the sheet pile provides for the device of transverse plates (ties), designed to ensure transportation, storage and provide geometric invariability during the immersion of the sheet piles.

The edges of the declared sheet pile are located along a semicircle line in the form of chords connecting adjacent sections of a semicircle at an obtuse angle, the value of which is 150 °, but can vary in the range of 140 ° - 160 °. The width of the structure ranges from 985 to 1960 mm, and the depth ranges from 490 to 980 mm.

The use of a multifaceted sheet pile made by bending or profiling allows you to select the optimal number of sheet piles per linear meter of sheet pile wall. As a result, the metal consumption of the claimed utility model decreases in comparison with the closest analogue.

The decrease in metal consumption is due to the fact that the use of the declared model allows you to select the optimal pile design based on geometric and mechanical characteristics, as well as combine with other types of sheet piles.

The claimed design of the sheet pile can be used for the construction of sheet pile walls of various types, with a sinusoidal, arched arrangement or in the form of a combined system, for example, using a round pipe.

Compared to other known solutions, when using the declared structure, the labor intensity and the time required for the construction of the sheet pile wall are reduced, due to this, the number of butt joints per linear meter of the sheet pile wall is also reduced, due to the increased dimensions, in relation to other types of sheet piles, for example, trough type.

Claims (3)

1. Sheet pile, the structure of which is located along a semicircle line and contains profiles attached from the sides to create a lock connection, characterized in that the sheet pile is made of seven faces located along a semicircle line in the form of chords connecting adjacent sections at an obtuse angle, when the five inner faces have a width in the range of 0.95 - 1.05 of their smallest width, and the two side faces are located at the edges and have a width of 1.9 - 2.1 times less than the smallest width of one of the five inner edges, while profiles are attached to the two side faces to create a lock connection. 2. A pile according to claim 1, characterized in that the first profile, attached to one of the side faces, is made with a lateral edge of a U-shaped cross-section, the end sections of which are bent inward and form an open cavity, and the second profile, attached to the other side face, made with a side edge having a T-shaped cross-section. 3. A pile according to claim 1, characterized in that the two side faces are interconnected by at least two transverse plates.

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