SU953133A1 - Wall block - Google Patents

Description

(54) WALL BLOCK

Claims (3)

The invention relates to construction and is intended for use in the erection of the exterior walls of residential and civil buildings. Most preferred is the use of the invention in the manufacture of industrial wall panels or blocks of the exterior walls of buildings in factory conditions or on the construction site in the construction of wall fences of individual elements, such as multi-gap stones. The wall blocks used for erecting external walls are known, consisting of small multi-gap stones with smooth surfaces connected to each other by a mineral with 1 binder and reinforcing rods placed in the body of the block in the vertical direction 1. A tight connection of stones with each other and the reinforcement mesh together with the vertical reinforcement, made in the form of lifting clamps and loops, increases the shear density of the block, but at the same time impairs its heat and sound insulating qualities, since the gaps are hollows amney bonder and lozhkovyh rows are arranged perpendicularly to one another. The heat transfer resistance of such a unit is low, so to increase it, it is necessary to cover the inner surface with a layer of heat insulating solution. Wall blocks are also known, which include masonry of hollow multislot stones, laid in parallel butting and spoon rows. In the known blocks, part of the hollow stones is installed on the end, and part in the Spoon rows 2. With such a constructive solution of the block, the heat and sound insulating properties of the wall are reduced, since along its section the voids of the butt and spoon rows are placed in mutually perpendicular directions, which reduces their effective cross section. These circumstances contribute to the increased transmission of sound and heat energy through the building wall made of these blocks. To provide the required thermal and acoustic insulation qualities, it is necessary to increase the thickness of the blocks, which leads to an increased consumption of materials. The closest technical solution to the invention is a wall block containing a masonry of stacked parallel tychkovymi and spoon rows with stitching seams of multi-gap clamping elements, in which the slots of stones in the spoon rows are parallel to the long side and in the tychkovyh parallel to the short side of the stone . This increases the thermal resistance of the wall due to increased hollowness in the cross section of block 3. However, due to the same external type of spoon and knotted stones, it is not possible to check the correctness of the masonry performed. Therefore, the heat engineering calculation of such a wall is carried out as for a wall without a directional (chaotic) arrangement of voids, which makes it possible neither to increase the thermal resistance of the wall masonry, nor to reduce its material consumption. In addition, with this solution, a block made of stones bounded on the sides by flat surfaces significantly reduces the sound absorbing properties of the building wall structure. There is an intense reflection of sound energy from the flat shielding surfaces of the block, which increases the density of the reflected sound energy. To eliminate this drawback, they increase the porosity of the outer layer of stones, or they cover the latter with special sound-absorbing coatings or plaster. This increases the design's multiple duration and degrades its economic performance. The aim of the invention is to increase the heat and sound insulation qualities of the unit and reduce the labor intensity of its manufacture. The goal is achieved by the fact that in the wall block, which includes masonry of stacked parallel tychkovymi and spoonful rows with ligating the shvs of multislot piece elements, the slots in the spoon are parallel to the long side of the elements, and in the tychekovy parallel to the short side on transverse tychekovy surfaces knotted elements and longitudinal scoop surfaces of scoop elements are formed vertical flutes located symmetrically relative to each other on the mating surfaces of the butt and spoon x rows The flute can have a semi-cylindrical or triangular shape. The end surfaces of the spoon elements and the side surfaces of the bonded elements can be made with grooves. Such a solution of the wall block allows it to be performed without significant labor costs with improved heat and sound insulation and properties. Placing the elements of the block in a specified sequence in combination with the cannelised surface of certain external planes creates conditions for dissipating the sound energy that falls on the surface and reduces the reflectivity of the block. The semi-cylindrical flutes of the external surfaces of the block have the highest absorption capacity. With any combination of elements located in the block in the specified sequence, in the cross section of the block, the slit of knotted and spoon rows are parallel to each other, providing a controlled increased thermal resistance anywhere in the outer wall of the building, since the outer and inner surfaces of the walls completely channeled. FIG. 1 shows the proposed wall block, a general view; in fig. 2 - plan of an even row of stones in the block; in fig. 3 - a plan of an odd row of stones in a block; in fig. 4 - plan of a row of stones in the block with their mechanized laying. The building block contains elements in the form of ceramic multislit stones 1 in the form of a rectangular parallelepiped, interconnected by a binder, forming seams 2. The stones contain slotted voids 3, located in the spoon row parallel to the long side, and in the tymped row, parallel to the short side. Along the cross section of the block, the stones are arranged parallel to each other, overlapping the entire section through the entire thickness. On the short surfaces of the pinch stones and on the long sides of the spoon stones, vertical flutes 4 are placed, for example, having a semi-cylindrical shape. The unchanneled surfaces of the butt and spoon elements may contain grooves 5 located perpendicular to the fluted surfaces to enable mechanization of the laying of block stones. Each of the slots 5 is made in the form of a trapezoid, and when mated, they form a cavity filled with a binder to the entire height of the stone. The vertical ends of the blocks can be profiled and contain channel-like protrusions 6. With this technical solution of the proposed wall block, the sound rays, falling on the slots 5 and reflecting in accordance with the Snell law, form a scattered field. In the near field of the reflected sound waves (in the Fresnel zone), a damped field is formed (due to the effects of interference of the incident and reflected waves), which makes it possible to reduce the energy of the reflected waves. On the other hand, due to the fact that in the proposed block, the slit of the jog and spoon series are always parallel to each other, the thermal resistance of the masonry is increased, which makes it possible to reduce the size of the stones and, consequently, the material consumption of the block. For the manufacture of the block, mainly hollow cores are used, for example, 18-slot ceramic stones. The invention can be implemented in existing plants for the manufacture of ceramic blocks using existing equipment and tooling. The proposed wall block allows reducing the flow of reinforcement by 5–7% and reducing the material consumption of the structure by 7–10% while ensuring high thermal characteristics of the building wall. At the same time, a technical contradiction is eliminated, connected with the need, on the one hand, to improve the acoustic qualities of the block, to apply additional special absorbing layers on its surface, and on the other hand, to increase the thermal resistance of the wall to increase the wall thickness and its cost. The use of the invention allows to improve the technical, economic and operational indicators of buildings being erected, including the acoustic regime in the adjacent territories and streets. Claim 1. In-wall block, including masonry from stacked with parallel butting and S  tpg PGT II t Spoon rows with ligating seams multislot piece elements, with the slot in the spoon are parallel to the long side of the elements, and in the butt-parallel to the short side, characterized in that in order to increase the heat and sound insulation properties and reduce the complexity of manufacturing , on the transverse tychkovyh surfaces of the tychkovyh elements and the longitudinal spoon surfaces of the spoony elements, vertical flutes are formed, located symmetrically with respect to each other on the mating surfaces postglacial lozhkovyh and rows. 2. A unit according to claim 1, characterized in that the flutes have a semi-cylindrical or triangular shape. 3. The unit according to claim 1, characterized in that the end surfaces of the spoon elements and the side surfaces of the pin-like elements are made with grooves. Sources of information taken into account in the examination 1. Ovcharov V. I. The use of bricks and ceramic stones in the manufacture of industrial building structures. Technical information. Series “Industry of ceramic wall materials and porous aggregates. VNIIESM, 1972 issue. 6, s. 14. 2 USSR Author's Certificate No. 747960, cl. E 04 C 2/06, 1980. 3. Guide to the design of stone and reinforced stone structures. M., stroiizdat, 1974, p. 13