RU2164276C2 - Large hollow drip stone - Google Patents

Abstract

FIELD: construction engineering; external walls of heated buildings. SUBSTANCE: ceramic stone has on its top edge two vertical rectangular through holes equidistant over its longitudinal axis from middle of its length and is provided with slotted-ridge vertical members on side edges; ridges on left-hand edge are opposing the slots on right-hand edge; two additional vertical slots are provided on each side edge filling them with fine-grain in-situ concrete for reinforcing and compacting, and with solution; depth of mentioned slots is half the width of vertical through holes arranged symmetrically to longitudinal axis of stone relative to slots. Sides of vertical through holes are measuring between 3.5 and 4.5 cm. EFFECT: improved heat-insulating and monolithic properties, tightness, and strength of brickwork; provision for dispensing with plastering. 2 dwg

Description

 The invention relates to construction and is intended for use as elements of the outer walls of heated civil and industrial buildings.

 Known wall block for low-rise buildings with the possibility of solution-free masonry, containing horizontal slotted channels below and above along the axis of the stone 1/3 of its width and a depth of 1/8 of the height of the stone, vertical T- shaped slots, which in the design position are filled with a vertical short liner of I-section, locking two adjacent stones along the length of each other; the upper slotted channel in the design position is filled with a dry-laid insert protruding up to the height of the lower gap of the above stone and blocked from above by a U-shaped sheet metal bracket, passed through the ends into the vertical holes provided for this near the ends (see description to the author's certificate of the USSR N 1825855, class E 04 C 1/00, ed.I.B. Biryulina).

 The disadvantage of such blocks is that when constructing the walls, their constructive solution does not provide thermal insulation of horizontal and vertical joints, the solidity of the masonry, which makes the process of industrial molding of such stones on modern screw press equipment very difficult. This leads to a decrease in the heat-insulating properties of the wall, to a decrease in its strength, and to a significant increase in labor costs in the manufacture of stones and a multi-operational process of laying them in the case.

 The closest technical solution is a large-format hollow porous stone with a length corresponding to the thickness of the outer wall, equipped in plan along the longitudinal axis with two through vertical square holes with dimensions of internal faces of about 4.5 cm, designed to run into them during the installation of lifting devices, as well as containing tongue-and-groove vertical elements along the lateral faces of the stone, and the ridges on the left side are opposite the grooves on the right side (see, for example, prospectuses of the company A. Winkler (Germany), a member of the Poroton association).

 In the masonry of the outer wall, the stones of the upper row are laid in one stone with its long side across the wall on top of the underlying stones along the layer of mortar with the placement of vertical transverse joints in rows adjacent in height, but without filling them with mortar.

 The disadvantages of this stone and the outer wall made on its basis are increased heat loss through the outer wall due to the possibility of blowing the wall through transverse vertical joints that are not filled with mortar (this is a violation of paragraphs 7.20, 7.48, 7.58 and 7.88 of SNiP 3.03.01-87 ), as well as insufficient strength and solidity of the wall. Blowing is eliminated by obligatory plastering the external wall on both sides with conventional plaster, which is a time-consuming and seasonal process and does not allow the wall on the basis of such a stone to be faced with slabs of sawn natural stone or reinforced concrete from the outside, and plasterboard, gypsum-fiber or other large-sized sheets from the inside.

 The objective of the invention is to increase the heat-shielding qualities of the masonry, the elimination of its purgeability, the exclusion of the requirement for its obligatory plastering with ordinary plaster, as well as the increase in the monolithicity and strength of the masonry.

 The problem is solved due to the fact that the large-format hollow porous ceramic stone is made with two through vertical rectangular holes on the upper face, along its longitudinal axis equidistant from the middle of its length, and has tongue-and-groove vertical elements along the side faces, and the ridges on the left side are located opposite the grooves on the right side, and along each of the side faces with two additional vertical grooves, to fill them with reinforcement and compaction with monolithic fine-grained concrete or mortar, half the width of the through vertical holes located symmetrically with the latter to the longitudinal axis of the stone, and the through vertical holes are made with side sizes of 3.5-4.5 cm. In the masonry wall, each stone of the overlying row is offset by half its width in relation to to the stones of the underlying row, as a result of which vertical holes are aligned in the plan along the longitudinal axis of the overlying stone with holes formed by adjacent deep grooves in adjacent stones of the lower row, and located The rectangular holes in the stones of the lower row on the longitudinal axis are aligned with the holes formed from two grooves in adjacent stones of the overlying row and filled with reinforced fine-grained monolithic concrete, forming monolithic dowels in vertical transverse joints along the entire masonry height.

 In FIG. 1 shows a large-format hollow porous stone; FIG. 2 - a fragment of a wall of large-sized porous stones.

 Large-sized hollow porous stone 1 (Fig. 1, vertical small voids in the stone in Figs. 1 and 2 are not shown) contains projections 2 and their corresponding grooves 3 on the side faces 4 of stone 1. Along the longitudinal axis 5 of the vertical face of the stone, two through vertical holes 6, for example, rectangular with side sizes of 3.5-4.5 cm, two additional vertical grooves are made along the side faces of the stone 7. The height and width of the protrusion 2 are approximately equal to the depth and width of the groove 3. Depth (c) of the additional vertical groove 7 is half shea 2c through-ins (e.g., rectangular) of the vertical holes 6 for the same in terms of their length b. Additional vertical grooves 7 and vertical holes 6 are separated in the light from the transverse axis of symmetry 8 of stone 1 by a, the distance from the longitudinal axis 5 to the edges of the grooves 7 is d.

 Large-sized porous ceramic stones 1 in the masonry of the outer wall (Fig. 2) are laid in horizontal rows on the mortar 9 with the long side (axis 5) across the outer wall 10. The stones 1 in the rows adjacent in height are offset halfway from each other half their width f. As a result, the vertical rectangular holes 6 in the overlying row and the deep vertical additional grooves 7, also forming holes between adjacent stones in the underlying row of masonry, are one above the other, creating through vertical cavities. These cavities are filled with reinforcement and compaction with fine-grained concrete 11. The volume of air between two dowels of monolithic concrete and the beds of mortar makes up a closed, non-blown air cavity along the vertical joints of adjacent stones.

 Confirmation of the solution of the problem is the following.

- thanks to a hermetically sealed volume of air between the horizontal layers of the mortar and two concreted monolithic reinforced concrete pairs of additional grooves in the side faces of adjacent stones, reliable thermal insulation is provided along the longitudinal vertical joint of the stones;
- due to the presence on the lateral faces of adjacent stones of two pairs of vertical additional grooves filled with reinforced concrete with a monolithic structure, the blowing of a vertical seam without obligatory plastering with ordinary plaster on the wall on both sides is excluded;
- vertical cavities filled without vertical tearing with reinforced concrete reinforced concrete in additional grooves of the side faces of adjacent stones of the higher and lower rows prevent the stone from moving in the horizontal plane, which ensures the solidity of the masonry;
- the presence of reinforced concrete dowels (four for each stone) over the entire height of the wall, the strength of the material of which is significantly higher than the strength of the large-format stone material and masonry mortar, increases the strength of the wall as a whole.

 The wall meets the requirements of p.p. 7.20, 7.48, 7.58 and 7.88 SNiP 3.03.01-87. From the outside, the wall can be either lined with facing bricks, sawn or reinforced concrete slabs, or plastered with ordinary plaster during its construction, and the plaster here performs the function of architectural decoration. From the inside, the wall can be lined with plasterboard, gypsum fiber or other large-sized sheets.

Claims (1)

 A large-format hollow porous ceramic stone made with two through vertical rectangular holes on the upper face, along its longitudinal axis, equidistant from the middle of its length and having tongue-and-groove vertical elements along the side faces, and the crests on the left side are opposite the grooves on the right side, and along each of the side faces - with two additional vertical grooves, for filling them with reinforcement and compaction with monolithic fine-grained concrete or mortar, half deep the width of the through vertical holes located symmetrically with the latter to the longitudinal axis of the stone, and the through vertical holes are made with side sizes of 3.5 - 4.5 cm.

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