RU2081238C1 - Groved-and-tongued wall - Google Patents

Abstract

FIELD: hydraulic engineering. SUBSTANCE: groved-and-tongued wall has piles 1 with lengthwise groved-and-tongued locks 2 installed on them. Connecting members 3 are installed between the piles. Connecting piles 3 and tubular. Lengthwise ledges 4 engaging groved-and-tongued locks 2 of piles 1 are secured to outer surfaces of connecting members. Groved-and-tongued locks 2 are made of two angular sections with lengthwise stiffening rib 5 installed between those. Side edges of stiffening rib 5 are welded to walls of lock 2. Stiffening rib 2 may be made of separate flat members installed through intervals in one vertical plane. EFFECT: higher reliability. 2 cl, 3 dwg

Description

 The invention relates to hydraulic engineering and can be used in the construction of moorings in sea and river ports, as well as in the construction of retaining walls for various purposes.

 Known wall made of sheet pile tubular piles. Each tubular pile is equipped with tongue-and-groove types of tongued and grooved types fixed to its outer surface: a longitudinal tongue-and-groove lock and a longitudinal tongue-and-groove protrusion. By means of locks and ledges, the piles are interconnected "into the castle".

 Known sheet pile wall has a high bearing capacity due to the rigidity of the tubular piles, but it is very material intensive because it does not allow to increase the center distance of the piles.

 In addition, during the construction of the wall, the spatial orientation of the piles is necessary to ensure pairwise connection of the locks and tongues of the tongue and groove joints.

 Closest to the proposed technical solution is a tongue-and-groove wall, consisting of tubular piles installed in a row at intervals, each of which is equipped with two tongue-and-groove locks fixed to its outer surface. The locks are box-shaped in cross section, their walls are made of corner profiles welded along the pile-forming piles, the shelves of which are facing towards each other with the formation of a gap between them.

 In the intervals between the piles, connecting elements are installed, having a cross-section in the form of an I-beam. The shelves of each of the I-beams are placed in the inner cavities of the locks of adjacent piles, acting as tongue-and-groove protrusions, and the wall of each of the I-beams is passed through the gaps between the shelves of the corner profiles of the locks of adjacent piles, so that the connecting elements and piles are interconnected “into the castle”.

 During the construction of this wall, the spatial orientation of the tubular piles is not required, since both elements of the tongue-and-groove joint are locks on the pile, and protrusions on the connecting element.

 The disadvantages of this wall include the fact that during the sequential driving of piles and connecting elements, a readjustment or change of piling equipment is necessary due to a significant difference in the mass and configuration of the pile and connecting element, which increases the complexity and construction time.

 A disadvantage of the known wall is also the low rigidity of the connecting element and the locks of piles on the perception of operational loads and soil pressure. To ensure high load-bearing capacity of the wall, it is necessary to reduce the center-to-center distance of piles, and therefore, increase the material consumption of the wall.

 An object of the invention is the creation of a technologically advanced construction of a tongue-and-groove wall, which at the same time has high load-bearing capacity and relatively low material consumption.

 The technical result expected from the use of the proposed technical solution is to increase the rigidity of the connecting elements of the wall and its locking nodes and thereby reduce the material consumption of the tongue and groove wall with the same bearing capacity.

 The specified technical result is achieved by the fact that in the known sheet pile wall, consisting of piles driven in a row with tongue-and-groove locks fixed on their outer surfaces, the walls of which are made of corner-type profiles, and connecting elements connected between the piles connected with the pile locks by means of tongue-and-groove protrusions, the connecting elements are made tubular in cross section, on their outer surfaces facing adjacent piles, tongue-and-groove protrusions are rigidly fixed, wherein each tongue-and-groove lock is sn abzhen at least one stiffener installed vertically in the inner cavity of the tongue-and-groove lock piles and rigidly attached side edges to the walls of the castle.

 It is also possible to perform tongue-and-groove locks with stiffeners made of separate flat elements installed at intervals in the same vertical plane.

 The tubular cross-section provides the connecting element with the greatest possible bending stiffness. The supply of pile locks with one or more stiffening ribs allows you to increase the height of the corner profiles from which the pile locks are made, i.e. increase the locking part, which leads to an increase in the center-to-center distance of the piles and, as a result, to a decrease in the material consumption of the tongue and groove wall while maintaining a high bearing capacity. Due to the almost identical mass of the connecting element and the pile, driving is much easier. there is no need to change the piling equipment, and this leads to a simplification of technology and a reduction in construction time.

 In FIG. 1 shows a General view of the berthing structure with the proposed sheet pile wall, cross section; in FIG. 2, section AA in FIG. one; in FIG. 3, view B in FIG. 1, the design of the lock assembly.

 The tongue-and-groove wall consists of piles 1 with tongue-and-groove locks 2 and connecting elements 3 with tongue-and-groove protrusions 4. The locks 2 are provided with stiffening ribs 5. The walls of the locks 2 are made of corner profiles 6.

 Piles and connecting elements can be made of pipes of the same range as follows.

 Piles 1 are made at the stand, for which, along the outer generators of each pipe, welds 2 of two corner profiles 6 are welded, the shelves of which are facing towards each other with the formation of a gap between them. Locks 2 are box-shaped in cross section. To increase the castle part and increase the center-to-center distance of piles, the corner profiles 6 are made non-equilateral, i.e. increase the height of the locks.

 Between two corner profiles 6, a stiffener 5 is longitudinally installed and, by welding, is attached with lateral edges to the inner surface of the walls of the lock 2.

 The stiffener 5 can have a length along the entire length of the lock, and can be made of individual elements installed at intervals one above the other in the same vertical plane.

 On the other stand or on the same, but at the end of the work on the production of the required number of piles, connecting elements 3 are made: longitudinal, for example, T-shaped cross-sectional elements, acting as tongue-and-groove protrusions 4, are welded to the pipes along the outer generatrix.

 The construction of the sheet pile wall is carried out by sequentially driving piles 1 and connecting elements 3 using the same piling equipment. When immersing piles with an enlarged locking part, the additional rigidity that rigidity ribs give to the locks does not allow the locks to open when driven in difficult geological conditions.

 The proposed sheet pile wall is technologically advanced both in the manufacture of its elements (piles and connecting elements), and during erection, has a high load-bearing capacity with a reduced material consumption compared to the prototype by about 10 percent due to an increase in the center distance of the piles.

Claims (2)

 1. A tongue-and-groove wall consisting of piles with longitudinal tongue-and-groove locks fixed to them, the walls of which are made of angular-type profiles and connecting elements connected between the pile piles by means of tongue-and-groove protrusions, characterized in that the connecting elements are made tubular in cross section and tongue-and-groove protrusions are rigidly fixed on their outer surfaces facing adjacent piles, with each tongue-and-groove lock provided with at least one stiffener, embedded in the inner cavity of the tongue-and-groove lock along the axis of the pile and rigidly attached by the lateral edges to the walls of the tongue-and-groove castle.  2. The wall according to claim 1, characterized in that the stiffeners are made of separate flat elements installed at intervals one above the other.

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