RU2640527C2 - Method of wall assembly construction - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: method of wall assembly construction consists in stacking building blocks (1) in rows one on the other with a sequential displacement of each successive row by an amount necessary for the coaxial arrangement of the holes (2) of the previous and subsequent rows, with further placement in the holes (2) of the fastening elements (3). The building blocks (1) have the form of a parallelepiped with at least two through holes (2) located symmetrically from the edges of the building block (1). The length of the fastening elements (3) is more than the height of the building block (1). The fastening elements (3) are installed in the holes (2) through one and securely fixed. In each successive row of building blocks (1), the fastening elements (3) are installed in the holes (2) free from the fastening elements (3) of the previous row, forming a staggered arrangement of the fastening elements (3) in the wall assembly.

EFFECT: acceleration of structure construction with increased reliability.

5 cl, 7 dwg

Description

The invention relates to methods for constructing a wall structure, in particular to methods that allow for non-solution masonry of walls by connecting with fasteners, providing a rigid fixation of the blocks.

Closest to the proposed solution is a building system containing individual building elements (RF patent No. 2175702). The building system comprises separate building elements, each element having an upper and lower surface that are substantially parallel to each other and containing at least one hole extending from the upper surface to the lower surface, while the building elements are configured to be installed one on top of the other so that the holes of the different elements are arranged coaxially relative to each other, and the connecting element is located in each hole, whereby the first building e the element belonging to it is pressed against the second building element located immediately below the first building element, while the connecting element of each first building element acts on the upper surface of this first building element and is attached to the connecting element belonging to the second building element, characterized in that between the lower surface of the first building element and the connecting element of the second building element is installed deform th element, which deforms the first predetermined force, thereby creating tension in the connecting element of the first construction element, and this force is significantly smaller than the second predetermined force, whereby each first building element is pressed with a second predetermined force to a second building element.

The technical problem to which the claimed technical solution is directed is to create a method of building a wall structure that allows you to quickly and reliably erect building structures (buildings, fences, etc.) without the use of mortars, glues, etc., using building blocks made from various materials and providing the necessary strength and reliability.

The technical result consists in solving the problem.

The technical result is achieved by the fact that in the method of constructing a wall structure, which consists in laying building blocks having the shape of a parallelepiped with at least two through holes located symmetrically from the edges of the building block, in rows on top of each other with successive displacement of each subsequent row by the amount necessary for coaxial arrangement of the holes of the previous and subsequent rows, with further placement of fasteners in the holes, fasteners having a length greater than cm height building block placed in the hole through one and firmly fixed, wherein each subsequent row of building blocks fastening elements mounted in openings free of fastening elements of the previous series, forming a staggered arrangement of fastening elements in the wall structure.

, чем диаметр сквозного отверстия, при этом сквозные отверстия выполнены в закладных элементах.In addition, mortgage elements pre-installed in the locations of the through holes and having a height equal to the height of the building block and the width and depth are pre-installed in building blocks

than the diameter of the through hole, while the through holes are made in the embedded elements.

Also, insulation can be placed between the rows of building blocks.

In addition, the insulation can be placed between the building blocks of the same row. In this case, grooves can be made in the building blocks to accommodate the insulation.

In FIG. 1 shows a fragment of a wall structure of two rows of building blocks constructed by the proposed method; in FIG. 2 - building block used in the proposed method, with embedded elements (top view); in FIG. 3 is a view aa of FIG. 2; in FIG. 4 - an arrangement of fasteners in the presence of four through holes in the first row of building blocks (top view); in FIG. 5 - an arrangement of fasteners in the presence of four through holes in the second row of building blocks (top view); in FIG. 6 is a view BB of FIG. 5; in FIG. 7 - two assembled building blocks with insulation.

With the proposed method of constructing wall structures, a building block 1 is used, having at least two through holes 2 located symmetrically at a distance from the edges of l / 4, where l is the length of the building block 1. With a large width of the building block 1, to ensure the reliability of the assembly of holes maybe four, six, etc. The diameter of the through holes 2 is calculated based on the required load and strength.

Fasteners 3 are installed in the through holes 2, for example, dowel nails, self-tapping screws, reinforcement bars, etc. The length of the fasteners 3 is greater than the height of the building block and calculate it based on ensuring the reliability of fastening of building blocks 1 of one row located above another row (i.e., if the reliability of fastening of building blocks is necessary, the length of the fasteners can be very large, such that the fastening an element can pass through one, two, three, etc. of a series of building blocks). The diameter of the fasteners 3 is selected from the calculation of ensuring structural strength: the smaller the gap between the fastener 3 and the through hole 2, the more reliable the building blocks 1 are attached to each other.

In the case of insufficient strength of the material of the building block 1, for example, the material has a heterogeneous structure, etc., embedded elements 4 made of material of the required strength are installed in the building block 1.

The embedded elements 4 may have any shape and size, but larger than the diameter of the proposed through holes 2. If there are embedded elements 4, they are installed in the location of the proposed through holes 2 and the latter are performed in the embedded elements 4.

In the building blocks 1 and the embedded elements 4, extensions (not shown) of the through holes 2 can be made for the hats of the fasteners 3 to be placed in them, if any, as well as to facilitate the fastening of the fastener in the lower block.

If necessary, insulation 5, for example, holofiber, can be placed between the rows of building blocks 1 both vertically and horizontally. In the event that the insulation has a sufficiently large thickness, then grooves 6 are made in the building blocks 1.

The construction of the wall structure of the proposed method is as follows.

Building blocks 1 are laid without a gap in a row of the required length. The next row of building blocks 1 is laid on this row with an offset of l / 2, where l is the length of the building block, into the through holes 2 of which fasteners 3 are inserted. Moreover, the fasteners 3 are inserted not into each through hole 3, but through one . The fasteners 3 are securely fixed in the through holes 2 accordingly, depending on the type of fastener 3, for example, clog or twist. Then the third row of building blocks 1 is laid, the fastening elements 3 are also inserted into the through holes 2, but the through holes 2 are selected so that the fastening elements 3 are installed in the remaining free through holes 2 of the previous row. This ensures reliable communication between the building blocks 1 with each other. Subsequent rows of building blocks are installed in a similar manner.

Thus, the specified technical result is achieved.

Claims (5)

1. A method of constructing a wall structure, which consists in laying parallelepiped-shaped building blocks with at least two through holes located symmetrically from the edges of the building block, in rows on top of each other with successive displacement of each subsequent row by the amount necessary for the coaxial arrangement of the holes of the previous and subsequent rows, with further placement of fasteners in the holes, characterized in that the fasteners having a length greater than the height of the building a unit installed in the through holes and securely fixed one, with each subsequent row of building blocks fastening elements mounted in openings free of fastening elements of the previous series, forming a staggered arrangement of fastening elements in the wall structure. 2. The method according to p. 1, characterized in that the building blocks are pre-installed mortgage elements placed in the locations of the through holes and having a height equal to the height of the building block, and the width and depth is greater than the diameter of the through hole, while through holes are made in embedded elements. 3. The method according to claim 1, characterized in that a heater is placed between the rows of building blocks. 4. The method according to claim 1, characterized in that a heater is placed between the building blocks of the same row. 5. The method according to p. 4, characterized in that in the building blocks perform grooves for placement of insulation.

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