RU2033501C1 - Method for construction of building from hollow blocks - Google Patents

Abstract

FIELD: construction. SUBSTANCE: building is erected as follows. Fastened to concrete base are vertical reinforcing cages, and hollow blocks are mounted tier by tier. First, corner blocks are installed, and then, using same blocks, spans are formed by turning them with their end walls to spans. Then, laid are row and final blocks. T-shaped joint of outer and inner walls are formed by tier laying of corner and final blocks, placing axis of final block along axis of outer wall, and axis of corner block, along axis of partition. Cross-shaped joint of crossing of inner walls is formed with the help of final block whose width and length are equal to wall thickness when installing them by tiers in mutually perpendicular positions. Installed simultaneously with block installation are boxes with pipes into block holes for electric wiring and fastened them to installation loops. Installed is horizontal reinforcement which serves as retainer of blocks from with self-hardening material which fills vertical walls and horizontal toothing due to the fact that block partitions are smaller than size of their walls. EFFECT: reduced labor input of block installation, simplified installation and higher quality of erected structure. 3 cl, 7 dwg

Description

 The invention relates to the field of construction, in particular to methods for erecting buildings from hollow blocks.

 The known method [1] of the construction of buildings from hollow unreinforced stones (TU427K-000017-04-91), which consists in the orderly laying of foundations, internal and external walls of buildings. Before laying the second row at the ends of ordinary and corner stones made with recesses, the solution is poured to form fixing dowels. After that, reinforcement is placed in the voids of the stones and the porous concrete mixture is poured.

 The disadvantages of this technical solution: the high complexity of filling the fixing dowels, since in the same row of a building measuring 15x10 m the number of dowels is 100 pcs. and on a one-story building 6000 pcs. the inability to straighten the underlying tier (tiers) monopolized by the dowels when laying the overlying tier, which will lead to a violation of the tolerances for straightness, exit from the plane and verticality of the walls being erected; the impossibility of using industrial methods of building construction, since the blocks have small overall dimensions intended for manual installation (the mass of the blocks is 8-23 kg), and the absence of mounting loops also involves loading and unloading manually.

 A known method [2] the construction of foundations, internal and external walls of buildings from hollow tongue-and-groove blocks, laid dry (without mortar). Three main types of blocks are used: ordinary, angular and half.

The disadvantages of this technical solution:
the complex shape and technological process for the production of high-quality blocks, especially grooves and ridges on them, which, at the slightest defect, leads to a difference in the junction between the overlying and underlying blocks, and straightening is impossible, since in this case the overlying block deviates from vertical and a horizontal gap is formed;
a fixed location of the grooves does not allow displacement of the overlying blocks along the wall;
the issues of the cross-shaped and T-shaped intersections of the walls of these blocks have not been resolved, since the presence in the corner block that is different from the ordinary crest (groove) does not allow it to be used as an extension, and the use of a half is also impossible for the same reason, i.e. when it is rotated through 90 ^{about a} rectangular shape, the ridge does not fit into the groove of the underlying block. To pass the connecting reinforcement in the intersected walls, it is necessary to break the walls of the blocks in place.

 The purpose of the invention to reduce the complexity of mounting blocks, to simplify the installation process and to improve the quality of structures being constructed.

 The method of erecting a building from hollow blocks consists in orderly laying of corner and row blocks with the formation of window and door openings, T-shaped and in filling the communicating voids with hardening material.

 The difference between this method of building construction is that in the construction of the building, an additional block is used, the width and length of which corresponds to the width of the wall, and the cross-shaped joint in height is formed from the orderly installation of the additional block with a longitudinal axis turning at a right angle to the overlying tier. A T-joint is formed in height by a tiered laying of the corner and additional block. The axis of the additional block is aligned with the outer wall, and the axis of the corner block is aligned with the partition. The formation of window and door openings is made from the tiled laying of corner blocks with end walls to the opening, and ordinary blocks are laid between the blocks. The height of the blocks corresponds to the multiplicity of the height of the floor. In stacked blocks in the places of technological penetrations form holes.

 In FIG. 1 shows the layout of blocks on one of the rows during the construction of the building, plan; in FIG. 2 node I in FIG. 1, a cross-shaped joint of walls on an even row of blocks; in FIG. 3 the same, for an odd number of blocks; in FIG. 4 node II in FIG. 1, T-shaped joint of the walls in an even row; in FIG. 5 the same, in an odd row; in FIG. 6 node III in FIG. 1, the layout of the blocks around the perimeter of window and doorways; in FIG. 7, section AA in FIG. 6.

 On the concrete preparation 1, corner-mounted corner (they are receiving) blocks 2, row blocks 3 and additional blocks 4 are installed. At the intersection of the walls, as well as along the perimeter of the openings and in the corners of the building, horizontal reinforcement cages 5 are installed, passing over the partition walls of blocks 6, made smaller heights than the walls of blocks 7, and connected with vertical frames 8 installed behind the partitions of adjacent blocks. In the places of technological passages, holes 9 are arranged in the walls of the blocks, into which mounting boxes 10 are mounted with tubes 11 for passing electric cables and other communication networks through them, fixed to the mounting loops of 12 blocks, which are also guides and fixing conductors of the overlying blocks to the underlying ones.

 The hardening material is placed in the internal cavity 13 of the blocks mounted and secured by rods 14, filling vertical wells and horizontal channels and providing after hardening the total load-bearing capacity of the walls, heat and sound insulation. The supporting layer of fixed formwork protects the outer surface from atmospheric influences during the operation of the building. There is no need for plastering on the inner surface of the walls (unlike brick buildings).

 The method of building a building from hollow blocks is as follows.

 Vertical reinforcement frames 8 are installed and fixed on concrete preparation 1. Then the first tier of hollow blocks is mounted: first, corner blocks 2 are mounted directly at the corners of the building, then doorways are formed from the same blocks 2, turning them with end walls to the openings. Then lay ordinary 3 and additional blocks 4 in the gap between the corner and trim blocks. When mounting the second tier, the corner blocks 2 are mounted at the corners in the direction perpendicular to the stacked blocks of the first tier to ensure decoupling of the corners.

 A T-joint, the connection of the outer and inner walls is formed by the tiered laying of the corner 2 and additional 4 blocks. The axis of the additional block is aligned with the outer wall, and the axis of the corner block is aligned with the inner wall. A cruciform joint (at the intersection of two internal walls) is formed using an additional block 4, the width and length of which correspond to the width of the wall. Installation of additional blocks is carried out in tiers with a turn of the longitudinal axis at a right angle to the underlying tier. Simultaneously with the tiered installation of the blocks, installation boxes 10 are mounted in the holes 9 of the blocks, and the tubes 11 for penetrating various cables and communication networks are fixed in the boxes 10 and to the mounting loops 12 of the blocks. The horizontal reinforcement 5 is also being mounted on the vertical 8. The horizontal reinforcement is fixed to the mounting loops 12, acting as a retainer from the horizontal displacement of the formwork blocks. From the horizontal lateral displacement of the overlying blocks, the role of the retainer is performed by the mounting loops of 12 blocks, which are also guides when mounting the block on the block. The vertical blocks are additionally fixed with rods 14 between the loops 12. After the blocks are installed in all tiers, the inner cavity 13 is filled with hardening material (foam concrete, expanded clay concrete, etc.) that fills the vertical wells and horizontal shields due to the fact that the height of the partitions of 6 blocks is less the height of their walls 7. Then mount the floor panels. With this method of building construction, there are no disadvantages inherent in the analogue and prototype, industrial installation and high quality are ensured.

Claims (3)

 1. METHOD FOR BUILDING A BUILDING FROM HOLLOW BLOCKS, containing orderly laying and row blocks with the formation of T- and cruciform joints and the formation of window and door openings and filling the communicating cavities with hardening material, characterized in that the additional block, width and length are additionally used in the construction of the building which correspond to the width of the wall, and the cross-shaped joint in height is formed from the orderly laying of the additional block with a turn of the longitudinal axis of the block at right angles to the axis of the block of the higher and lower rows, and T a smooth joint by the orderly laying of the corner and additional block, positioning the axis of the additional block coaxially with the outer wall, and the axis of the corner block coaxially with the inner one, and the formation of window and door openings is carried out by the regular laying of corner blocks with end walls to the opening and ordinary blocks between them.  2. The method according to claim 1, characterized in that the height of the blocks is a multiple of the height of the floor.  3. The method according to PP.1 and 2, characterized in that in the blocks in the places of technological penetrations form holes.

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