RU2037608C1 - Method to build multi-storied buildings of modules - Google Patents

Abstract

FIELD: erection of buildings. SUBSTANCE: modules are installed on the design position within a story. Then reinforcement common for the whole story is laid and monolithic reinforced concrete floor common for all the modules is made. Then the following row of modules is installed over the floor. Pits being filled with concrete in the process of monolithic floor installation may be made to form joint tongues on outer surfaces of the floors along ribs on the boundary of adjacent walls of the modules. Prior to floor making, seams between adjacent modules are overlapped with asbestos cement sheets, which then are stayed in the floor. EFFECT: highly productive erection of buildings. 3 cl, 3 dwg

Description

 The invention relates to the field of construction of multi-storey residential and public buildings from volume blocks. It can also be used in seismic areas to strengthen floor structures and ensure the collaboration of volumetric units during seismic impacts.

 A known method of construction of volumetric blocks, the connection of which with each other is carried out on bolts: in the end parts of the volumetric blocks are embedded elements in the form of corners to which the anchoring reinforcing bars are welded. At the joints of the blocks between the embedded elements are steel gaskets. The blocks are connected to each other by means of bolts, the niches in which the bots are placed are monolithic [1] Connections of this kind do not provide reliable connection of the blocks with each other under seismic influences.

 A slightly different solution was made for the unit for connecting three-dimensional blocks to each other in the building by analogy [2], the vertical elements of the blocks are located at the level of the lower niche plate, and holes are formed in the lower plate opposite the niches, into which the latches enter, which are rigidly mounted on the upper horizontal edge of the vertical block element , mounted on the same latches with their holes are plates mounted in the level of the bottom plate. Thus, a connection is made in one of three adjacent blocks to each other. However, this node has the same drawbacks as the previous counterpart.

 In another analogue, instead of bolting, the blocks are fastened together for welding [3] On the adjacent surfaces of the blocks during their manufacture, embedded elements are formed, to which, after the installation of the blocks, the design position is welded by steel connecting plates, the so-called flexible circuit is formed, such buildings poorly resist seismic loads .

 A more rigorous scheme for connecting volumetric blocks in a building is more acceptable for seismic regions, a typical representative of such a scheme is a constructive junction according to the analogy [4] of the gaps (cavities) between volumetric blocks formed by alternating vertical ribs located on the outside of the walls and grooves between them, monolithic with concrete with the formation of rigid keyed joints having reinforcement in the form of outlets from the walls of the blocks. The described method of connecting the blocks ensures the rigidity of the building, however, laying concrete in narrow vertical cavities with the reinforcing outlets located in them does not ensure reliable filling of these cavities, i.e. does not guarantee the quality of the connection of the blocks with each other.

 There is also a method of constructing multi-story buildings by analogy [5] including T-, G- and cross-shaped volumetric elements installed at the intersection of the axes of the building with a gap between themselves, in which additional elements of walls and ceilings are placed. Each volume element is equipped with a slab, and each overlap is additionally monolithic inserts. In this solution, the totality of the elements forming the structural cell, but not all the buildings as a whole, has sufficient rigidity.

 The prototype of the proposed method is the method of erecting a multi-story building described in the analogue [6] After installing the lower row of volume blocks in the design position, the pillows are evenly supported along the contour of the longitudinal and transverse walls, on which the volume blocks of the next tier (floor) are supported. Then install the reinforcement of the monolithic plate and fasten it for welding to embedded parts on the outer faces of the walls and floor slabs of the underlying volumetric blocks, after which the floor slab is concreted. This plate serves as a connecting element between the volume units. The disadvantage of this method is the need to work on the device of the overlap after installing the lower and upper rows of volume units, which makes it difficult to perform operations on laying reinforcement and supply and laying of concrete.

 The objective of the invention is to create a rigid connection between the volume units in the building, combining them into a single load-bearing system, while simplifying the process of arranging such connections, as well as increasing the seismic resistance of buildings from volume units.

 The essence of the invention is as follows: three-dimensional blocks are installed in the design position at the floor level, then on their overlap above the seams of the blocks along their contour lay common for this floor reinforcement and arrange a monolithic reinforced concrete floor common to all floor blocks, on which the next block tier is then installed . A variant is possible in which nests are made on the surface of the block ceilings along the edges along the border with the adjacent block walls, which are filled with concrete when forming a monolithic overlap, forming dowels.

 As shown by a comparative analysis of the claimed invention with the prototype, the proposed method is characterized in that the floor reinforcement installed in the design position at the level of the floor level is laid with reinforcement common for this floor and a monolithic reinforced concrete floor is common for all floor blocks, onto which the next block tier is then installed . In addition, it is possible to install special nests in the ceilings of the blocks along the edges along the border with the adjoining walls of the blocks of the blocks, which are filled with concrete with the monolithic overlapping device, forming dowels. These differences allow us to conclude that there is novelty in the proposed method.

Comparison of the proposed method for the construction of multi-storey buildings with other well-known technical solutions for a similar purpose shows that the claimed method allows concreting monolithic floors immediately over the entire surface of the floor or with significant dimensions of this surface, in which the volume of monolithic concrete laid in one shift exceeds 50.60 m ³ , on the surface of the grab. This ensures the receipt of two technical effects at once: the rigid combination of all volume blocks within the floor into a single whole and the creation of seismic zones of the building within each floor. Thus, the invention exceeds the prior art.

 In FIG. 1 shows a general view of a fragment of a building from building blocks; figure 2 socket; figure 3 node overlap the seam between the blocks.

 The method is carried out in the following order.

First, blocks 1 are installed in the design position, located at the level of the next floor. Then, the seams 2 between them are overlapped with gaskets 3, which prevent the concrete mix from entering the seams between adjacent walls of the blocks when laying it in a monolithic overlap, and reinforcement 4 common for a given floor is laid over the walls of the blocks along the entire length of the seams, after which they arrange the same for all floor blocks monolithic reinforced concrete flooring 5. In this case, when the floor area is large and the volume of monolithic flooring exceeds 50.60 m ³ , the work on its device can be divided into grips. After the concrete of monolithic overlap gains sufficient strength, volume blocks 6 of the next floor are installed on it. To improve the joint work of volumetric blocks with monolithic ceilings during seismic impacts and as a result of increasing the seismic resistance of the building on the surface of the floors of 7 blocks along the edges along the border with the adjoining walls of 8 blocks 6, nests 9 are made, which are filled with concrete with a monolithic overlap, forming dowels (in the drawings not shown).

 The claimed method allows for the manufacture of volumetric blocks to form their overlap based on the perception of only the load from their own weight, and when the device is monolithic overlap, common for blocks of a given floor, to bring the total thickness of the overlap to the calculated value necessary, in addition, to perceive the payload and providing normative sound insulation from airborne noise.

 When applying the inventive method, there is no need to perform welding work to connect the blocks to each other, and a monolithic overlap in the conditions of a building in seismic areas acts as an anti-seismic belt, which receives horizontal seismic loads from overlying floors and transfers them to blocks of the underlying floor during an earthquake.

 The proposed method greatly simplifies the process of connecting the blocks to each other, since this operation is performed on an open area, the supply of concrete to which can be done as a bucket using a lifting mechanism, and a concrete pump.

Claims (3)

 1. METHOD OF CONSTRUCTION OF MULTI-STOREY BUILDINGS FROM VOLUME BLOCKS, including floor-mounted installation of volumetric blocks in the design position, laying of reinforcement on the ceiling of blocks and monolithic concrete, characterized in that prior to the installation of volumetric blocks of each subsequent floor, common reinforcement is placed on the floors of all volumetric blocks of the previous floor , then concreting is carried out with the formation of a single monolithic floor slab.  2. The method according to claim 1, characterized in that after installing the volumetric blocks of each floor in the design position, the seams between adjacent volumetric blocks are closed.  3. The method according to PP. 1 and 2, characterized in that before installing the volumetric blocks in the design position on the outer surface of their floors along the ribs along the border with the adjacent walls of the blocks, nests are made, and in the process of concreting a monolithic slab, the nests are filled with concrete with the formation of dowels.

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