RU2052042C1 - Method for erecting monolithic wall structures - Google Patents

Abstract

FIELD: civil engineering. SUBSTANCE: method includes concurrent filling support outer layers of structural concrete and middle layer of cellular concrete followed by raising isolating partitions of non-consolidated concrete. Outer and middle layers of the structure are formed vertical with tier-by-tier. Tier height is specified by equal hydrostatic concrete mass pressure. The concrete slurry is laid in the outer and middle layers on each tier. Raising of isolating partitions to the next concreting tier is carried out directly after filling up each tier with concrete slurry prior to its consolidation. Besides, middle layer of the structure may be filled up with gas/concrete mixture. Height of each tier of the middle layer is smaller than one of the appropriate tier of outer layers by height specified by swelling of the gas/concrete mixture. Isolating partitions first are moved by a level of poured layer of gas/concrete mixture of the first concreting tier of the middle layer. Further raising of isolating partitions is performed at swelling speed of the gas/concrete mixture of the middle layer. EFFECT: improved thermal insulation. 2 cl, 1 dwg

Description

 The invention relates to a technology of monolithic housing construction and can be used in the construction of multilayer monolithic load-bearing and enclosing structures and their elements with enhanced heat-shielding functions, as well as structures with shielding, conductive or heating layers with significant material savings.

A known method of erection of monolithic multilayer structures, which consists in alternately concreting the outer layers and the inner layer separated from the outer layers by dividing walls [1]
The disadvantage of this method is the duration of the technological cycle, i.e. in the duration of the manufacture of the structure due to the alternate formation of layers and in significant metal consumption and the complexity of the device for lifting the formwork panels and dividing walls.

The closest in technical essence and the achieved result is a known method of erecting monolithic multilayer wall structures, including the simultaneous formation of load-bearing outer layers and the middle layer, the lifting of dividing walls located between the layers [2]
A disadvantage of the known solution is the significant complexity of lifting the partition walls with a large length of the walls.

 The objective of the invention is to reduce the time of erection of wall structures and reduce labor costs for stripping works, as well as to increase the manufacturability of the process of erecting multilayer walls.

 The problem is solved due to the fact that the middle layer is filled with a cellular concrete mixture at the same time as the supporting outer layers are concreted with structural concrete, and the formwork dividing partitions are lifted immediately after concrete mixtures are laid before they are rolled up, while the middle layer can be filled with aerated concrete mixture, and the separation separators rise the partition in this case is produced initially at the level of the aerated concrete mixture, and the further separation of the partition walls is carried out at a rapid Tew swelling aerated concrete mixture.

 When lifting the partition walls before setting concrete mixes, the complexity of their formwork is reduced due to the small adhesion force of the walls to concrete and the time for wall construction is reduced due to the acceleration of the formwork turnover, and due to the use of lightweight concrete or mesh mixture to fill the middle layer, the process of building walls with heat-insulating material increases the middle layer.

 The drawing illustrates the process of simultaneous filling of the outer bearing and the middle layer with various concrete mixtures during the construction of monolithic multilayer wall structures.

 On the base 1, vertical shields of the outer formwork 2 and dividing partitions are installed 3. The outer layers 4 of the multilayer structure are filled with concrete mixture in tiers to obtain a layer of structural concrete, which can be used as high-strength concrete, heat-resistant or screening concrete, lightweight concrete, etc. . Simultaneously with concreting of the outer layers 4, the middle layer 5 is filled with a light concrete or aerated concrete mixture, which can be used as a porous foam or aerated concrete mixture. The height of the filling tiers is determined by the same hydrostatic pressure.

 The lifting of the separation walls 3 is carried out immediately after laying concrete mixtures in layers, without waiting for the start of hardening of concrete.

 If the middle layer is filled with aerated concrete mixture, the outer layers are initially concreted to a wall structure to a height H, and the middle layer is poured to a height h. Without waiting for the concrete to set, the dividing partitions are lifted, and as the initial flooded layer of the aerated concrete mixture is swollen, the dividing partitions reaching this layer are also lifted, lifting them at a rate of expansion. The initial volume of the poured aerated concrete mixture is able to increase 2.5-3 times, and the separation walls are raised as they expand. The filling of the middle layer as it swells continues until this layer rises to a height N. As the partitions rise and the concrete mixes having mutual mass penetration in the liquid phase solidify, good adhesion of different concrete to the outer and middle layers is ensured.

 Thus, the proposed method for the erection of monolithic multilayer structures is distinguished by manufacturability, reduced energy consumption, and the complexity of the process to achieve good mutual adhesion of the layers to each other.

Claims (2)

 1. METHOD FOR ESTABLISHING MONOLITHIC WALL CONSTRUCTIONS, including the simultaneous filling of the supporting outer layers of structural concrete and the middle layer of cellular concrete, followed by the lifting of uncured concrete of the partition walls, characterized in that the outer and middle layers of the structure are formed in a vertical position by tiers, the height of which is determined by tiers, the height of which is determined by tiers, the height of which is determined by tiers equal hydrostatic pressure of the mass of concrete laid in the outer and middle layers on each tier, and the rise of the separation walls on blowing stage of concreting is carried out immediately after filling each tier concrete mix prior to its setting.  2. The method according to claim 1, characterized in that the middle layer of the structure is filled with aerated concrete mixture, and the height of each tier of the middle layer is less than the height of the corresponding tier of the outer layers by the height of the expansion of the aerated concrete mixture, while the separation walls are initially moved to the level of the flooded aerated concrete mixture of the first the concreting tier of the middle layer, and the further rise of the dividing walls is carried out at a rate of expansion of the aerated concrete mixture of the middle layer.

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