SU1612029A1 - Method of erecting massif concrete structure - Google Patents

Abstract

The invention relates to hydraulic construction. The purpose of the invention is to simplify the construction of the structure, reduce the cost of the work and expand the functionality by using the concrete plant all year round and reducing its capacity. Artificial cooling of the concrete masonry is carried out by installing prefabricated elements into the concrete block, the volume of which reduces the volume of fresh concrete mix to be installed after installation. Prefabricated elements can be made either in the form of concrete monolithic blocks, or in the form of reinforced concrete blocks, or in the form of hollow structures, provided with an extract located above the top of the concrete layer. 4 hp f-ly, 3 ill.

Description

The invention relates to hydraulic construction, in particular, to methods for regulating the thermal regime of concrete masonry of massive structures, especially in hot climates.

The purpose of the invention is to simplify the construction of the structure, reduce the cost of the work and extend the functionality by using the concrete plant all year round and reducing its capacity.

FIG. 1--3 shows a schematically erected structure with different shape and form of laid elements of the section.

On the prepared base 1 (Fig. 1), prefabricated elements 3 made of monolithic concrete are placed in a block of concrete casting, limited by formwork 2. After that, the concrete mix 4 is placed in the block. After the concrete has set and held, the cycle is repeated.

Due to the fact that the prefabricated elements 3 occupy a substantial part of the volume of the concrete block, the selection

their quantity and total volume decreases the volume of freshly laid concrete, and with it the amount of cement involved in hydration and exothermic heating. In addition, in the process of concrete hardening, masonry is compressed during shrinkage of fresh concrete and the masonry acquires compressive stresses.

The number of elements installed in the block can change the thickness of the concrete mix in the spaces between them and ultimately control the temperature of the structure, not allowing thermal deformation and cracking.

On the prepared base 1 (Fig. 2), the block of concreting, limited by formwork 2, is installed, as in the specified case; prefabricated elements 3 with the difference that the latter are made in the form of hollow structures equipped with hoods 5, the top of which is located at elevations not lower than the top of the concrete block, and the structures themselves occupy a substantial block volume, as in the specified case. After installing the element $

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JOB 3 the concrete mix 4 is placed in the block. After the concrete has set, and withstand the yoke, the cycle is repeated.

 An additional effect is the substantial, natural (5-25%) saving of concrete. uk-Aadyvaemogo in construction. , Fig. 3 shows a combination of the two cases indicated as applied to the gravity-dammed 1010 gravitational dam, while the vertical part of the dam is made according to FIG. 1 (using monolithic blocks), and the first part is shown in Figure 2, ( using salvage units).

An additional effect is, in addition to compressing the laying in the upper part and saving concrete in the lower, leveling stresses on horizontal platforms, increasing compressive stresses in the upper and lowering the tick in the lower part of the dam.

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Claims (2)

1. A method of erecting a massive concrete structure, including layer-by-layer concreting with installation of formwork along the boundaries of concreting blocks and thermal control elements within concreted blocks, characterized in that, in order to simplify the construction technology, it is constructed and, reduce the cost of work and enhancement of functionality by year-round use a concrete plant and its reduction, ready-made concrete or iron elements. 2. A method according to claim 1, characterized in that the reinforced concrete elements are hollow and. 3 method according to claim 2, characterized in that the hollow concrete elements are provided with an extract located above the top of the concrete layer. 4 method according to claim 1, characterized in that, in order to improve the impregnation condition of the dam, in each concrete floor, the monolithic concrete elements are installed on the upper side, and the empty padded concrete elements are installed on the lower side, after which the concrete mix is placed on the whole height of the river is concreting. GI 1X1 X Feed.1 Fi & .2 FIG. five