RU2062843C1 - Method for erecting exterior walls and structural member for erecting exterior walls - Google Patents

Abstract

FIELD: civil engineering in lining exterior and interior walls of modular members in the process of erecting low heated buildings. SUBSTANCE: bricks 7 with L <0.1 W/m•K heat conductivity coefficient are used as stiff warmth-keeping jacket. The bricks may be made on the base of peat binder. Though voids 14 of bricks 7 are filled completely by a mortar in summer, and by insertion members 15 of concrete in winter for the height of each horizontal masonry raw by forming vertical bearing columns 12, 13 uniformly across the volume of exterior wall 10. The columns take up not less than 4/5 compression load. In so doing exterior side of bricks 7 of the interior wall 10 is covered with sand-concrete layer 9. EFFECT: high warmth- keeping effect. 3 cl, 5 dwg

Description

 The invention relates to construction, is intended for laying external walls from piece modular elements with through and through voids, and can find application in the construction of low-rise civil and industrial heated buildings.

 There is a method of erecting external walls from piece modular elements-bricks, including row-by-layer laying on a mortar bed of bricks with single-sided hollow voids with dressing with a solution of vertical joints, moreover, bricks of adjacent rows are arranged with a combination of hollow voids, and the dressing of the joints is made through two lines (ed. USSR N 985216, M.C. E 04 B 2/14, 1981).

 The disadvantage of this method is the significant cost of construction, associated with a large consumption of bricks, the volume of voids of which and the wall thickness of which does not yet guarantee obtaining improved thermal insulation qualities of the wall as a whole. When erecting the walls of low-rise buildings in a known manner in load-bearing walls, perceiving a slight compressive and shear load with ensuring thermal insulation properties, an overconsumption of expensive building material occurs, which provides high load-bearing properties of the walls and their increased cost.

 There is a method of erecting load-bearing walls, including row-by-layer laying on a mortar bed of bricks with through and through voids with dressing with a solution of vertical joints in two rows by forming the outer and inner walls and diaphragms between them, and bricks of adjacent rows are placed with a combination of through voids, through voids in adjacent rows are filled with connecting rods, and the diaphragms are formed by issuing brick walls inward with placement of sheets of rigid insulation in the seams between them (ed. St. C SSR N 1021737, M. Cl. E 04 B 2/00, 1983).

 The disadvantage of this method is the significant cost of building low-rise buildings, when with a relatively small compressive load in the masonry, use bricks with high load-bearing capacity and in larger quantities than necessary. At the same time, neither the volume of internal air cavities in the wall, nor the sheets of rigid insulation in the resulting diaphragms provide enhanced thermal insulation qualities of the walls being constructed as a whole.

 Closest to the proposed one is a method of erecting external walls including line-laying with dressing of the seams of the outer vertical rows of bricks and internal vertical rows of hard insulation (ed. St. USSR N 1625966, M.cl. E 04 B 2/02, 1989). However, bricks of a rigid insulation must absorb a significant load of masonry walls and are made of sufficiently strong material such as expensive cellular concrete. Production of non-standard cellular concrete bricks from blocks at the construction site at the place of masonry sharply increases the cost of construction. At the same time, acceptable heat-insulating indicators of a wall laid out according to a known method are achieved with its relatively large thickness.

 Known building element for the construction of external walls, made in the form of a modular brick with vertical through voids, containing at least one layer of a closed or external thermal insulation material (Patent EPO N 0055561, M.cl. E 04 S 1/40, 1982).

 A disadvantage of the known building element is the great complexity of its design and production technology and, as a consequence, the high cost of its manufacture. At the same time, expensive clay building material is used to make bricks.

 Closest to the proposed is a building element for the construction of external walls, made in the form of a modular brick with through and single-sided through holes. (ed. St. USSR N 1021737, M.cl.E 04 C 2/46, 1983).

 The disadvantage of this building element is the high cost of its manufacture and reduced heat-insulating qualities due to insufficient volume of air cavities of open voids. With the relatively high strength of the brick, its use in the multi-row external walls of low-rise buildings in order to reduce their thermal conductivity becomes an inexpedient and expensive event. In this case, the through voids of the brick are intended only for plug-in elements that overlap these voids in adjacent horizontal lines of masonry, protecting the lines from mutual mixing and made in the form of durable metal expensive rods. The technical result of the invention is to reduce the cost of construction during the construction of the outer walls of low-rise heated buildings by 1.5 2 times and to increase the heat-insulating qualities of the outer walls erected from relatively cheap piece building elements with sufficient bearing capacity and low thermal conductivity.

 The technical result according to the method of erecting external walls, including line-laying with dressing the seams of the outer vertical rows of bricks and internal vertical rows of hard insulation, is achieved by using hollow bricks based on a peat binder as the insulation, the volume of through voids of the bricks of the hard insulation is filled into warm season with mortar, and in the cold season with plug-in concrete elements to the height of each row masonry by forming uniformly in volume Cored oil vertical row of vertical supporting poles, sensing at least 4/5 of the compressive load, wherein the outer side of a hard insulation bricks in a wall covered with a layer peskobeton.

 With a relatively small thickness of the external wall being erected, it provides a second vertical row of hard insulation bricks with a significant increase in the heat-insulating qualities of the wall, and the relatively high bearing capacity of the external wall and its use as a supporting structure in low-rise buildings is ensured by supporting vertical mortars or concrete pillars uniformly distributed over the volume of the inner wall and formed by completely filling the volume of the through voids of the brick is rigid insulation to the height of its thickness in each row of masonry, while the columns in the thickness of the insulation brick perceive at least 4/5 of the compressive load from the overlying rows, and coating the outside of the bricks of a rigid insulation with a layer of sand concrete guarantees not only an additional improvement in the load-bearing and heat-insulating qualities of the wall with internal side, but also necessary to protect the insulation from accidental damage and at the same time for preliminary interior decoration of the walls of the building.

 The use of cheap, easily formed with high performance, lightweight and fairly rigid insulation bricks, for example, from a cured material based on peat binder can reduce the total cost of construction by 3-4 times.

 The technical result in a building element for erecting walls by the proposed method, made in the form of a modular brick with vertical through and single-sided through holes, is achieved by the fact that the brick is made of rigid heat-insulating material with a thermal conductivity of L <0.1 W / m • K, for example, on a peat binder, vertical through and unilateral non-through voids are uniformly distributed in volume along the spoon plane of the brick, the total cross-sectional area of through voids is at least 1/5 of the area of the spoon plane of the brick, and one-sided non-through voids along the thickness of the brick are made in the form of blind channels of small cross section with a total volume of voids amounting to 1.7-1.8-volume of the brick, and the brick is equipped with additional plug-in elements made of concrete coinciding in volume and configuration with through voids of the brick and made to the height of its through voids.

 Performing a brick of a rigid insulation with a coefficient of thermal conductivity L <0.1 W / m • K. for example, on the basis of a peat binder, it significantly increases the performance of erecting external walls with improved thermal insulation properties and the uniform distribution of hard heat insulation materials along the spoon surface of vertical through and one-sided through voids along the brick volume, the total cross-sectional area of the through voids of which is at least 1/5 of the spoon plane brick, allows using plug-in additional concrete elements to significantly increase the bearing capacity the span of the bearing wall from the side of the vertical rows of masonry made of these bricks. A decrease in the ratio of the cross-sectional area of the through voids and the spoonful area of the brick leads to a decrease in the uniformity of the bearing capacity of the vertical rows in the wall masonry, as well as the risk of destruction of the brick of rigid insulation from overlying rows of bricks in the wall masonry, which should take no more than 1/5 of the calculated compressive load. Performing one-sided non-through voids in the bricks of a rigid insulation along its thickness in the form of dead-end small channels, without significantly reducing the overall strength of the brick itself, greatly increases its heat-insulating qualities, since at least 1/7 of the brick volume is occupied by air cavities, the best heat insulators.

 The manufacture of non-through voids with a volume of more than 1/8 of the volume of the brick reduces the design strength of the brick, and less than 1/7 of the volume with the optimum number of these voids with a minimum input channel reduces its design heat-insulating qualities, which is reflected in the total volume of the wall being built to offset from the center of the point " dew ". The small openings of the channels of non-through voids guarantee that the solution gets into them in the minimum amount necessary only to create anchor plugs that protect the brick from mixing in the masonry lines from horizontal load.

 The invention is illustrated in the drawing, where figure 1 shows a fragment of a section of the masonry of the outer wall of a low-rise building; figure 2 presents a fragment of a section of a possible masonry of the inner wall of a low-rise building, made only of bricks of rigid insulation; figure 3 a General view of the brick of a rigid insulation from the spoon plane with a one-sided arrangement of through holes; figure 4 section aa figure 3; 5 is a General view of the plug-in concrete element. The outer wall 1, erected by the proposed method, consists of the first vertical row 2 of masonry made of ordinary silicate brick 3, laid in horizontal rows of masonry with non-through voids 4 down and forming the outer wall 5 and of the second vertical row 6 of masonry made of bricks 7 of hard insulation, laid in horizontal rows of masonry with not-through grooves 8 down and forming together with layer 9 of sand concrete an inner wall 10. The laying of bricks 3 and 7 in horizontal rows and vertical rows 2 and 6 is done on the building nom ligation solution with the horizontal and vertical joints 11.

 The masonry of the second vertical row 6 of bricks 7 of a rigid insulation contains bearing concrete 12 and (or) mortar columns 13 formed in vertical combined through holes 14 of brick 7 in adjacent horizontal rows of masonry. Bearing concrete poles 12 are formed of plug-in concrete elements 15 installed in through holes 14 to a thickness H of brick 7 and coinciding in diameter.

 Brick 7, as a modular building element, consists of a rigid heat-insulating material with a thermal conductivity coefficient L <0.1 W / m • K, for example, on a peat binder, vertical through 14 and one-sided through holes 8 which are uniformly distributed throughout the volume along the spoon plane. The non-through voids 8 are made of small diameter d uniformly in thickness of the brick 7 and the volume is 1 / 7-1 / 8 of the volume of the brick 7. The total cross-sectional area of the through voids 14 in the brick 7 is at least 1/5 of the spoon plane of the brick 7.

 The erection of the outer walls of low-rise buildings using a building element in the form of the proposed modular brick of rigid insulation is implemented as follows. The first and second vertical rows 2 and 6 of silicate 3 and brick 7 of rigid insulation with ligation of vertical joints 11 are laid simultaneously on the mortar bed of the underlying horizontal row of masonry with non-through voids 4 and 8 downwards. In the warm season, the through voids 14 of bricks 7 are filled completely to a thickness N solution, and in the winter season plug-in concrete elements 15 with the formation of load-bearing posts 12,13. Upon the formation of the inner wall 10, it is produced, covered with a layer of 9 sand concrete. High thermal insulation qualities of the supporting wall are provided by the brick material 7 of a rigid insulation with a thermal conductivity coefficient L <0.1 W / m • K, which is used, for example, peat binder, the comparative physical and mechanical characteristics of which are presented in the table.

 By the proposed method, it is possible to erect the internal walls of low-rise buildings, in which only one vertical row of bricks of rigid insulation is laid and its side surfaces are coated with a layer of sand concrete.

 The proposed method of erecting the outer walls of low-rise buildings allows to reduce the cost of construction by 1.5-2 times and increase the thermal insulation qualities of the outer walls of heated rooms with a relatively small thickness and sufficient load-bearing capacity through the use of a special building modular element in the form of a brick of a rigid insulation, for example, on the basis of a peat binder, which, by performing a number of through and through holes in it, in the proposed manner, substantially reduces its heat conductivity with relatively high strength that is significantly increased in the masonry wall when applying additional insert concrete elements. A new building element, a brick of rigid insulation can be successfully used in the construction of internal walls, as well as various self-supporting structures.

 A sufficiently high load-bearing capacity of walls made of hard insulation bricks is ensured even when their through voids do not coincide with different masonry methods, since the mortar bed of the underlying horizontal rows of masonry with its standard thickness in the design structures of the proposed load-bearing walls allows protecting plug elements or mortar plugs from filling through voids.

 Ready-made building elements in the form of bricks of rigid insulation are successfully used in the construction of the outer and inner walls of one and two-story cottages and garages under construction. TTT1 YYY2 YYY4

Claims (3)

 1. A method of erecting external walls, including line-laying with dressing the seams of the external vertical rows of bricks and internal vertical rows of hard insulation, characterized in that the hollow bricks based on a peat binder are used as the insulation, the volume of through voids of the bricks of the hard insulation is filled into warm season with mortar, and in the cold season with plug-in concrete elements to the height of each masonry line by forming uniformly in the volume of the internal vertical about a number of vertical load-bearing poles, taking at least 4/5 of the compressive load, while on the outside the bricks of the hard insulation in the wall are covered with a layer of sand concrete.  2. A building element for the construction of external walls, made in the form of a modular brick with vertical through and one-sided through holes, characterized in that the brick is completely made of rigid heat-insulating material with a thermal conductivity of L <0.1 W / m • K, on a peat binder , vertical through and one-sided non-through voids are uniformly distributed throughout the volume along the spoon plane of the brick, the total cross-sectional area of the through voids is at least 1/5 of the area of the spoon pl brick-plane, and one-sided non-through cavities in the thickness of bricks made in the form of blind small cross section channels with a total volume of air is about 1 / 7-1 / 8 brick volume.  3. The building element for the construction of external walls according to claim 2, characterized in that it is equipped with additional plug-in elements of concrete, matching in volume and configuration with through-voids of brick and made to the height of through-voids in brick.

Images