RU149258U1 - COMBINED WALL FROM PLAIN PILES - Google Patents

Abstract

1. The combined wall of sheet piles, formed from sheet piles of a given profile, where the piles are connected to each other by a rigid locking connection, characterized in that it is additionally equipped with tubular anchor sheet piles placed on the outer or inner side of the wall. 2. A combined wall of sheet piles according to claim 1, characterized in that the tubular anchor piles are connected to the piles forming the wall with a rigid locking joint formed from corner, tee or I-beams. 3. A combined wall of sheet piles according to claim 1, characterized in that the tubular anchor piles are placed with a certain step. 4. The combined wall of sheet piles according to claim 3, characterized in that the pitch of single anchor piles is selected depending on the required bearing capacity of the sheet pile or its rigidity, namely the deflection of the top.

Description

The utility model relates to varieties of hydraulic structures, such as moorings, breakwaters, slopes, dams, bank protection, protective hydraulic structures in the form of walls, etc., which have high load-bearing capacity, and can be used, in particular, to protect against wind waves and ice of the port water area and raid berths, approaches to canals and the port lock, coastal areas of the sea, during the construction of moorings in sea and river ports, the construction of retaining walls for various purposes (during the construction of pits, for Ukrainian slope heating, etc.).

It is known from RF patent No. 123421, class E02B 3/06, published on December 27, 2012, a device related to a hydraulic structure, which is a vertical wall of a buttress type, formed from a series of mating supporting parts with a superstructure, forming a pile row, while bearing the part is made in the form of a steel pile filled with a solid component in the form of a cement-cement core, and the superstructure placed on the pile is made in the form of a concrete block reinforced with basalt fiber, while the cement-cement core is additional ying reinforcing components in the form of a tubular member and basalt fibers.

This technical solution has improved strength characteristics, as well as high load-bearing ability of the finished product to perceive the active lateral and frontal pressure of a dynamically changing power (wave, ice) load. At the same time, these high mechanical characteristics are ensured by high material consumption and multi-element, which makes both the structure itself and the method of its manufacture quite complex and costly.

Simplifies this kind of technical solutions and the technology of their manufacture, the use of load-bearing parts of the so-called sheet piles, through which they form finished products in the form of sheet piling.

So, for example, such walls, in accordance with STO-GK Transstroy 010-2007 (Organization Standard. Tubular sheet pile welded. Rules for the construction of sheet pile walls) are formed from tubular piles forming the constituent elements of the formed sheet pile wall. these elements are interconnected by a lock, ensuring their rigid connection. This wall has a high bearing capacity due to the rigidity of the tubular piles, but it is very material intensive, since it does not allow to increase the center distance of the piles.

A disadvantage of the known wall is also a significant deviation of the top of the piles to the perception of operational loads and soil pressure. To reduce the ductility of the wall, provided that its cross-section has a high bearing capacity, it is necessary to reduce the center-to-center distance of the piles and, therefore, increase the wall material consumption.

From the technical specifications TU 14-102-8-2003, which entered into force on January 15, 2003, a wall of sheet piles of the L5-UM type, having a trough-like profile and made by the hot-rolled method, is known. Piles are interconnected by a locking connection, which can be of any known design (from corners, GOST 85409-93, and I-beams, GOST 26020-93)

The disadvantage of this known wall of sheet piles, adopted as the closest analogue, is the limited range of profiles (see table 1) with a bending moment bearing capacity (400-900) kNm / m, which limits their use for unapproved sheet piles with a height of more than 10 m

The technical problem, for the solution of which the claimed utility model has been created, is the creation of a technologically advanced wall structure made of sheet piles with sufficient rigidity, high load-bearing capacity and, at the same time, relatively low material consumption.

The technical result for which the claimed utility model is intended is to increase the stiffness and bearing capacity of the combined wall of sheet piles, while reducing its material consumption.

The specified technical result is achieved by the fact that the utility model is formed of sheet piles of various configurations (trough-shaped, Z-shaped or other predetermined profile), while the piles are connected to each other by a rigid locking connection, and the formed wall is additionally equipped with tubular anchor piles placed with external or internal side of the wall with a certain step.

Figure 1 shows a fragment of the proposed combined wall of sheet pile and anchor sheet piles. The formed wall consists of rigidly interconnected locking joints of piles 1 trough-shaped (or any other) profile. To enhance rigidity and load-bearing capacity, the formed wall is additionally equipped with tubular anchor piles 2. Piles 2 are distributed along the wall with a certain step b, the value of which is selected depending on the required load-bearing capacity of the tongue wall or its rigidity (top deviation).

Additional tubular piles 2 are placed on the outer or inner side of the wall, while each pile is connected to the corresponding pile of the trough-like (or other) profile with a rigid locking connection made of corner, tee, I-beams or any other profiles. The length of the lock, however, may vary depending on the required stiffness and bearing capacity of the wall section. An increase in the length of the lock leads to an increase in the rigidity of the wall.

The proposed sheet pile wall is technologically advanced both in the manufacture of its elements (piles and locks), and during erection, has a high load-bearing capacity and lower deformability with a lower material consumption (more than 25 percent) compared to the closest analogue due to the rational layout of the sheet pile structural elements the walls.

Claims (4)

1. The combined wall of sheet piles, formed from sheet piles of a given profile, where the piles are connected to each other by a rigid locking connection, characterized in that it is additionally equipped with tubular anchor sheet piles placed on the outer or inner side of the wall. 2. The combined wall of sheet piles according to claim 1, characterized in that the tubular anchor piles are connected with the piles forming the wall, a rigid locking connection formed from corner, tee or I-sections. 3. The combined wall of sheet piles according to claim 1, characterized in that the tubular anchor piles are placed with a certain step. 4. The combined wall of sheet piles according to claim 3, characterized in that the pitch of single anchor piles is selected depending on the required load-bearing capacity of the sheet piling or its rigidity, namely the deflection of the top.

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