RU2745314C1 - Method for manufacturing a near-cordon berth beam - Google Patents

Abstract

FIELD: hydraulic engineering.SUBSTANCE: invention relates to a method for the production of works in hydraulic engineering, in particular to the construction and reconstruction of berths and other coastal structures. A method of manufacturing a near-cordon beam, including bottom elements 8 cut out of sheet metal, which are straight on three sides, and the fourth has a profile of installed sheet piles 7, includes the following operations: positioning the bottom elements 8 at the required level by means of leads 6 welded at right angles, and the subsequent stage, meshes or reinforcement cages of the future reinforced concrete structure and stop elements are welded to the metal surface of the sheet pile 8, and the stop elements that ensure positioning of the installed wall formwork 2 at an equal distance from the sheet pile 7 and reinforcement cages, providing the necessary protective layer of reinforcement 1, then concrete is accepted by the method of underwater concreting through the pipe 4, laid on the bottom elements 8. Thus, the presented manufacturing method is much more economically attractive in comparison with the technologies used to create similar reinforced concrete structures using heat chambers and other other similar devices. The timing of the work also varies greatly in favor of the invented method of work production.EFFECT: manufacture of a near-cordon berth beam - a protective reinforced concrete slab on a metal sheet pile of a quay structure of the "bolverk" type, when the bottom of the slab is below the level of the water surface, without the use of expensive heat chambers for manufacturing.1 cl, 1 dwg

Description

The invention relates to a method for the production of works in hydraulic engineering, in particular to the construction and reconstruction of berths and other coastal structures.

It is known to use a sealed chamber, in cases where the lower mark of the near-cordon beam is below the water mark. By means of a heat chamber, a part of the sheet pile wall is dried to the desired mark. In the drained space, work is being carried out to erect a near-cordon beam.

The closest in technical essence to the claimed invention is, patent (SU 1493715) here the lower part of the formwork consists of a multi-layer bottom installed in the grooves, while the upper layer of the bottom is made of plastic material, the head is equipped with rigid transverse ribs connecting the side plates into a single block, and grooves are made at the base of the side plates on their inner sides, in which a multilayer bottom is installed.

The disadvantages of the known are: the manufacture of a heat chamber and a sealed bottom, which spends a fairly long period of working time and, as a result, very large finances.

The objective of the claimed invention is a method of manufacturing a near-cordon berth beam - a protective reinforced concrete slab on a metal tongue of a quay structure of the Bolverk type, when the bottom of the slab is below the level of the water surface.

When erecting hydraulic structures (berths) of the "bolverk" type, steel sheet piles are often used. Before driving, each sheet pile should be checked for straightness, and if such defects and dents on the locks are found, they should be corrected. Thus, only elements with constant profile geometry take part in the construction of the sheet pile wall, which is very important for the applicability of this method. After the installation of anchor rods, slabs and a distribution belt, a technological opportunity opens up for the homogenization of the sheet pile wall by making a vertical reinforced concrete slab, which is part of the near-cordon beam.

This method is used in cases where a part of the formwork is in an aquatic environment and has a periodic complex geometric profile. In the case under consideration, the Larsen profile.

The technological result consists in the manufacture of a near-cordon berth beam - a protective reinforced concrete slab on a metal sheet pile of a berthing structure of the Bolverk type, when the bottom of the slab is below the water surface level.

The essence of the claimed is illustrated by a drawing:

- Fig. 1 Scheme of manufacturing a near-cordon berth beam

The claimed is carried out as follows.

Bottom elements (8) are cut out of sheet metal, which are straight on three sides, and the fourth has a profile of previously installed sheet piles (7) (for example, Larsen sheet pile). "Leads" (6) are welded to these elements perpendicularly, by means of which the bottom elements (8) are positioned in space. Leashes are welded to the Larsen tongue in places above the water level (3).

At the next stage, meshes or reinforcement cages of the future reinforced concrete structure and stop elements are welded to the metal surface of the sheet pile, ensuring positioning of the installed wall formwork (2) at an equal distance from the sheet pile and reinforcement cages, thereby guaranteeing the necessary protective layer of reinforcement (1). In some places, it is possible to use underwater electric arc welding.

Thus, with the help of the proposed complex-profile bottom elements (8) and wall elements (2) and methods of their fastening, a formwork is formed for receiving a concrete mixture.

Next, the acceptance of concrete is carried out by the underwater concreting method through a pipe (4) laid on the bottom elements (8).

This method of manufacturing a protective reinforced concrete slab with a lower mark below the water level is much more economically attractive in comparison with the technologies used to create similar reinforced concrete structures using more expensive heat chambers and other similar devices. The timing of the work also varies greatly in favor of the invented method of work production.

Thus, the presented method makes it possible to manufacture a near-cordon berth beam without manufacturing a complex and expensive heat chamber.

Claims (1)

A method of manufacturing a near-row berth beam as a volumetric reinforced concrete structure of complex shape, including bottom elements cut out of sheet metal, which are straight on three sides, and the fourth has a profile of installed sheet piles, characterized by positioning the bottom elements at the required level by means of leashes welded at right angles, on the subsequent stage, meshes or reinforcement cages of the future reinforced concrete structure and stop elements are welded to the metal surface of the sheet pile, ensuring positioning of the installed wall formwork at an equal distance from the sheet pile and reinforcement cages, providing the necessary protective layer of reinforcement, then the acceptance of concrete is carried out by the method of underwater concreting through the pipe laid on the bottom elements ...

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