RU2735773C2 - Sheet pile wall for soil with different strength characteristics - Google Patents

Abstract

FIELD: construction.SUBSTANCE: invention relates to sheet pile walls and can be used in hydraulic engineering during construction of sea and river berths, as well as in civil and industrial construction. More specifically, invention relates to sheet pile wall for soil with different strength characteristics along length of said sheet pile wall. Sheet pile wall for soil with different strength characteristics contains steel tubular piles with locking pairs, which are hammered into ground, each of which consists of a holder and a comb, made of profiles with constant throughout their length cross-section shape, wherein each comb is made with at least one locking edge arranged in the cavity of the cartridge to form a lock joint. Contains sections with different center-to-center distances between piles, wherein center-to-center distances of the section of the tongue-and-groove wall erected on strong soil is greater than the center-to-center distance of the section erected on weak soil. Width of ridges, measured along neutral axis X of sheet tongue, is such that in connected state locking pair covers distance "in light" between external surfaces of adjacent piles, note here that width of crests of lock pairs on strong soil is accordingly larger than crest width on weak soil.EFFECT: technical result consists in reduction of metal consumption and creation of tongue-and-groove wall optimized by metal consumption depending on different strength characteristics of soil, on which sheet pile wall is constructed, without loss of bearing capacity of this wall.6 cl, 5 dwg

Description

The invention relates to sheet piling walls and can be used in hydraulic engineering in the construction of sea and river berths, as well as in civil and industrial construction. More specifically, the invention relates to a sheet pile wall for soil with differing strength characteristics along the length of the sheet pile wall.

In hydrotechnical construction, sheet pile walls made of steel tubular piles, connected to each other by means of sheet piling elements welded to their outer surfaces, the so-called sheet pile, are now widely used. Known, for example, the sheet pile wall according to the Eurasian patent No. 020880, in which the tubular piles are interconnected by means of locking pairs, each of which consists of a cage and a ridge, forming a pincer-like connection. In this locking pair, the clip covering the ridge has a pincer shape in cross section; this clip is easy to manufacture and has a very high strength, but it has a very high metal consumption.

Moreover, the known sheet pile wall designs are not weight optimized, i. E. by metal consumption depending on the differing strength characteristics of the soil. In the case when the soil at the construction site has different strength characteristics, in some areas of the facility along the length of the sheet pile wall being erected, the design parameters of the sheet pile wall, namely, the dimensions of the piles and the distance between their centers, which provide the specified bearing capacity of the sheet pile wall, are calculated from the condition the strength of the sheet pile wall on soft ground. In this case, the sections of the sheet pile wall, built on sections of the object with more solid soil, have a margin of safety and, therefore, excess metal consumption, which is not economically viable.

Hereinafter, in the text of the description, the term "soft soil" means soil that has the lowest strength characteristics at the sheet pile wall construction site, and the term "strong soil" means soil that has significantly higher strength characteristics compared to soft soil.

The objective of the present invention is to reduce the metal consumption and create a sheet pile wall, optimized for metal consumption, depending on the different strength characteristics of the soil on which the sheet pile wall is built, without losing the bearing capacity of this wall.

The problem is solved due to the fact that a sheet pile wall containing steel tubular piles driven into the ground with locking pairs, each of which consists of a cage and a ridge made of profiles with a constant cross-sectional shape along their entire length, and each ridge is made at least at least with one locking edge placed in the cavity of the cage with the formation of a lock connection, according to the invention for soil with different strength characteristics, it contains sections with different center-to-center distances between piles, and the center-to-center distances of a section erected on solid soil are greater than the center-to-center distances of a site , erected on soft soil, while the width of the ridges, measured along the neutral axis X of the sheet pile wall, is made such that in the connected state the interlocking pair overlaps the distance "in the light" between the outer surfaces of adjacent piles, while the width of the crests of the interlocking pairs on solid soil corresponds to more than the width of the ridges on soft ground.

According to the proposed invention, the cage of each locking pair is made of the minimum permissible dimensions, providing the design strength of the said locking pair.

According to the proposed invention, each pile can be provided with an additional cage, and each ridge is made in the form of a panel with two locking edges, while the locking edges of each ridge are placed in the cavities of the adjacent pile clips.

According to the proposed invention, each cage can be made C-shaped in cross-section. It is also possible to make such a cage with a longitudinal protrusion for easy welding.

The locking edges of the ridges according to the proposed invention are thickenings with a circular or oval cross-section and are placed in the cavities of the cages of adjacent piles with the possibility of longitudinal movement and partial rotation of the ridge relative to the cage fixed on the pile.

The problem of reducing the metal consumption of the shunt wall can be solved in various ways.

Saving the sheet pile wall metal by reducing the pipe wall thickness is ineffective. It is more effective to reduce metal consumption by increasing, where possible, the distance between the centers of the piles, so that the running meter of the sheet pile wall contains a smaller number of piles, which mainly determine the metal consumption of the sheet pile wall.

The possibility of increasing the distance between the piles (MCP - center-to-center distance) is limited by strength requirements, since the bearing capacity of the sheet pile wall is inversely related to the MCP under all other conditions being equal, and in direct proportion to the strength of the soil. On soft soils, a larger number of piles are required, installed with a smaller distance between their centers to ensure the specified bearing capacity of the sheet pile wall. The higher the strength of the soil, the fewer the number of piles can provide a given bearing capacity of the sheet pile wall, the greater the distance between the centers of the piles can be. This is one of the ways to optimize the metal content of the sheet pile wall, depending on the strength characteristics of the soil.

A decrease in metal consumption due to an increase in the distance between piles and, consequently, a decrease in the number of piles per linear meter in sections of the sheet pile wall, erected on more solid ground, is ensured due to the fact that in sections of the sheet pile wall, erected on solid ground, the distance between the piles is greater, than the distance between piles in sheet pile sections erected on soft ground.

A decrease in the metal consumption of the sheet pile wall according to the invention is also achieved through the selection of the minimum size and, therefore, the minimum metal consumption of the clips of the locking pairs without reducing the strength of the locking connection. The designs of such clips are shown in FIG. 3a and 3b as examples.

With all the existing variety of designs (shapes and sizes) of lock pair clips, clips having a C-shaped cross-section or close to it have an advantage in terms of reducing metal consumption, i.e. in fact, they are only a grip for the locking edge of the ridge, directly welded to the outer surface of the pile. This design of the clips allows you to minimize the weight of the clip, which also helps to optimize the weight of the lock pair and, consequently, the overall weight of the sheet pile wall.

In the proposed invention, it is possible to combine the "base" cage with ridges of different widths, but with the same locking edges of the ridges, compatible with the cage. This provides the ability to unify the clips for the required moment of resistance and allows the designer to select the required combination of clip and ridge depending on the quality of the base soil.

The proposed sheet pile wall is thus optimized in terms of weight (metal consumption) depending on the strength characteristics of the soil on which it is erected, taking into account the possible difference in these characteristics at different construction sites of the same sheet pile wall, while ensuring its required strength

An embodiment of a sheet pile wall according to the invention, in which each pile contains two clips, and each ridge is made in the form of a panel with two locking edges, which are placed in the frames of adjacent piles, has an advantage, in contrast to the first embodiment of the invention, according to which the ridge can be welded to the pile with one edge. In this advantageous embodiment of the present invention, the piles are balanced due to the coincidence of their geometric centers and centers of gravity, which facilitates the conditions for pile driving and increases the productivity and quality of construction, since the blockage of piles and the fanning of the sheet pile wall are practically excluded. The productivity of labor in the manufacture of piles is also increased due to the fact that the same element is welded to the pipe - the cage. In this case, the same advantages have the implementation of the ridge in the form of a flat panel with two locking edges. In addition, piles with minimal clip sizes and flat ridge panels are easy to transport.

The essence of the invention is illustrated further using the drawings, which show:

in fig. 1 - sheet pile wall according to the invention, cross section;

in fig. 2 - the same, preferred embodiment of the invention, in which each pile is made with two clips;

in fig. 3a and 3b show examples of clips according to the invention;

in fig. 4 - an embodiment of the ridge with two locking edges;

in fig. 5 - node I in Fig. 1.

The sheet pile wall contains piles 1 made of pipes with elements of the lock pairs 2 welded to them. Each of the lock pairs 2 consists of a cage 3 and a ridge 4. A variant of the cage 3 shown in FIG. 3a, has a C-shape along its entire length in cross-section, a variant of the cage 3 shown in FIG. 3b, additionally has a longitudinal projection 5, which facilitates welding. The tongue 4 of the sheet pile wall according to the basic embodiment of the invention shown in FIG. 1, one edge is welded to the pile 1, and its free edge is a locking edge 6 made in the form of a thickening 7. The ridge 4 according to another embodiment of the invention (Fig. 2) is made with two locking edges 6 and is a flat panel. Both of its locking edges 6 are made in the form of thickenings 7 of circular or oval cross-section. The neutral axis of the sheet pile wall is marked with X.

The construction of the sheet pile wall according to the present invention is carried out as follows.

On the basis of a geological study of the soil, construction sites are distinguished on which the soil has different strength characteristics, i.e. areas with soft ground and areas with more solid ground. There can be more than two such sections on extended objects.

Taking into account the given operational load and strength characteristics of the soil at the construction site, calculate the required bearing capacity of the projected sheet pile wall, the diameter and length of the piles 1, based on the strength characteristics, select the locking pairs 2. Calculate the distance between the centers of the piles, providing a given design bearing capacity for each sheet pile wall sections: МЦР 1 - for wall areas erected on soft ground, and МЦР 2 - for wall sections erected on solid ground. Marking is carried out for the centers of the piles, performing MCR1 less than MCR2. Depending on the calculated distance between the centers of the piles 1, the ridges of 4 locking pairs are made 2. The width of the crests B1 for the sections of the sheet pile wall on soft soil is made less than the width of the crests B2 for the sections of the wall on solid ground, providing by calculation that the locking pair cage-ridge overlapped the distance "in the light" between the outer surfaces of adjacent piles at each site.

Piles 1 are made at factory welding benches. In accordance with one embodiment of the invention, ridge 4, made with one locking edge 6, is welded to the pile with its other edge opposite to the locking edge 6. To each pile 1, in accordance with one embodiment of the invention, a holder 3 is also welded to the pile. Clip 3 is made of minimum dimensions on the condition that, in accordance with GOST, its breaking strength as part of a lock pair (i.e. lock) must be at least 250 tons of force per running meter of the lock.

In accordance with one embodiment of the invention, at the construction site, the finished piles 1 are submerged into the ground in succession, each subsequent pile being submerged with the simultaneous placement of the locking edge 6, i.e. thickenings 7, ridge 4 in the cavity of the holder 3 of the previous pile, i.e. with the installation of piles into the castle.

In accordance with another embodiment of the invention, two clips 3 are welded to each pile 1 at a factory welding stand, made according to the above strength condition. After the immersion of the piles 1 according to the previously made markings, according to this embodiment of the invention, the ridges 4 with two locking edges 6 are installed as closing elements, placing them in the cavities of the cages 3 of adjacent piles 1.

Due to the implementation of the distances between the centers of the piles different for different sections of the sheet pile wall, depending on the bearing capacity of the soil along the construction line of the sheet pile wall, i.e. from various strength characteristics of the soil on objects with complex geology, the proposed sheet pile wall has an optimal metal content, which makes it less expensive in comparison with the known sheet pile walls from the prior art.

For example, a sheet pile wall _; tubular piles with a diameter of 1020 mm, made on soft soil with a center-to-center distance of 1113 mm, has a square meter weight of 244 kg / m ² with a moment of resistance 7126 cm ³ m.st. A sheet pile wall made of piles of the same diameter on solid ground with a center-to-center distance of 1125 mm has a square meter weight of 230 kg with a moment of resistance 6475 cm ³ m.st.

Thus, by varying the center-to-center distance, it is possible to achieve an efficiency in terms of metal consumption of more than 6% per square meter of sheet pile wall without deteriorating the operational properties of the metal structure.

Claims (7)

1. Sheet pile wall for soil with different strength characteristics, containing steel tubular piles driven into the ground with locking pairs, each of which consists of a cage and a ridge made of profiles with a constant cross-sectional shape along their entire length, and each ridge is made at a smaller measure with one locking edge placed in the cavity of the cage with the formation of a locking connection, characterized in that it contains sections with different center-to-center distances between piles, and the center-to-center distances of a sheet pile wall section erected on solid soil are greater than the center-to-center distances of a section erected on soft soil, while the width of the ridges measured along the neutral X axis of the sheet pile wall is made such that in the connected state, the interlocking pair overlapped the distance "in the light" between the outer surfaces of adjacent piles, while the width of the ridges of the interlocking pairs on solid ground is correspondingly greater than the width of the crests on soft soil. 2. The sheet pile wall according to claim 1, characterized in that the cage of each locking pair is made of the minimum permissible dimensions, ensuring the design strength of the said locking pair. 3. Sheet pile wall according to any one of paragraphs. 1 or 2, characterized in that each pile is equipped with an additional cage, and each ridge is made in the form of a panel with two locking edges placed in the cavities of the cages of adjacent piles. 4. Sheet pile wall according to any one of paragraphs. 1-3, characterized in that the cage is made C-shaped in cross section. 5. Sheet pile wall according to claim 4, characterized in that each cage is made with a longitudinal protrusion for the convenience of welding to the pile. 6. Sheet pile wall according to any one of paragraphs. 1-5, characterized in that the locking edge of each ridge is a round or oval thickening in cross-section, placed in the cavity of the cage with the possibility of partial rotation and longitudinal movement of the comb relative to the cage.

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