RU89553U1 - COTTAGE - Google Patents

Abstract

1. A cottage containing internal and external multilayer walls installed on foundations with a protective layer of small blocks, a number of columns inside the walls with belts installed on top of the columns around the perimeter of the building, forming a single frame system of the building, characterized in that the reinforced concrete belts are made of prefabricated reinforced concrete elements docked together on support pillows mounted on the heads of the columns, and the precast elements of the outer wall belts are rectangular, and the precast belt elements in the corner ah buildings - L-shaped. ! 2. The cottage according to claim 1, characterized in that the prefabricated elements of the longitudinal wall belts are connected by metal beams. ! 3. The cottage according to claim 1, characterized in that the ends of the prefabricated elements of the belts are equipped with embedded elements from the corners and plates, longitudinal and transverse grooves, which are symmetrical to the embedded parts and grooves of the adjacent prefabricated elements of the belts. ! 4. The cottage according to claim 1, characterized in that the embedded parts of the precast elements of the belts are connected by reinforcing bars with both the embedded parts of the adjacent elements of the belts and the embedded parts of the pillows of the pillars. ! 5. The cottage according to claim 1, characterized in that in the longitudinal grooves of the prefabricated elements of the belts, reinforcement is additionally installed in the form of reinforcing meshes and curved rods, and all the grooves are filled with concrete.

Description

The utility model relates to the field of construction and can be used in the construction of low-rise buildings such as cottages, cottages, garages, etc.

Known buildings using a monolithic reinforced concrete frame with wall filling of highly effective and affordable local material (see US Pat. RF No. 2148129, 2109888, class E04B, 1996 and 1998). The disadvantages of famous buildings are the high proportion of structures, the complexity of construction and seasonality, high cost.

Buildings constructed using the so-called “TISE” technology are also known (see Prince RN Yakovleva. New Construction Methods, “TISE” Technology. M., Adelant, 2005, p. 290, 364, 446 fig. 13, 19). They contain external multilayer walls installed on foundations, the outer layer of which is made of through hollow blocks and a reinforced concrete belt mounted on top of the blocks.

The closest analogue to the claimed cottage is a technical solution according to US Pat. RF №67132, U1, cl. ЕВВ 2/02 (2006. 01), 2007. It contains internal and external multilayer walls installed on foundations with a protective layer of small-sized blocks, a number of columns inside the walls with reinforced concrete belts installed on top of the columns around the perimeter of the building, forming a single frame system of the building.

A disadvantage of the known technical solution is the high specific gravity of the structures and the execution of reinforced concrete belts monolithic.

The technical result of the proposed technical solution in reducing labor costs for the construction of the building, increasing the prefabricated structures.

The specified technical result is achieved by the fact that in a known technical solution containing internal and external multilayer walls mounted on foundations with a protective layer of small blocks, a number of columns inside the walls with reinforced concrete belts installed on top of the columns around the perimeter of the building, forming a single frame system of the building, reinforced concrete belts made of prefabricated reinforced concrete elements docked together on support pillows mounted on the heads of columns, moreover, prefabricated elements of belts the external and internal walls are rectangular, and the prefabricated elements of the belts in the corners of the building are L-shaped.

The technical result is also achieved by the fact that the precast elements of the longitudinal wall belts are connected by metal beams.

In addition, the technical result is achieved by the fact that the ends of the prefabricated elements of the belts are equipped with embedded parts from the corners and plates, longitudinal and transverse grooves, which are symmetrical to the embedded parts and grooves of the adjacent prefabricated elements of the belts. This technical result is achieved by the fact that the embedded parts of the prefabricated elements of the belts are connected to the embedded parts of the adjacent elements of the belts and to the embedded parts of the pillows of the pillars. The technical result is achieved by the fact that in the longitudinal grooves of the prefabricated elements of the belts, reinforcement is additionally installed in the form of curved nets and rods and all the grooves are filled with concrete.

Presented improvements can increase the prefabrication of the construction and thereby accelerate it.

The following is an example of the implementation of the claimed technical solution, illustrated by the drawings, where Fig. 1 shows a building plan; figure 2 is a section along aa in figure 1; figure 3 - rectangular precast element reinforced concrete belt; figure 4 - L-shaped precast element;

figure 5 is a section bB in figures 4 and 3; figure 6 - docking node adjacent prefabricated elements; Fig.7 is a section bb in Fig.6.

The cottage contains the foundations of the longitudinal walls 1, the foundations of the transverse walls 2 and the foundations of the middle wall 3. The foundations 1, 2 and 3 are placed on bored piles 4 (Fig. 1, 2). Columns in the form of brick pillars 5 are installed on the longitudinal 1 and transverse 2 foundations, between which there is a brick wall 6 with a thickness of 120 mm. At the intersection of the outer walls, an L-shaped brick wall 7 is made with a thickness of 120 mm.

On the heads of the 8 pillars 5 are supporting pillows 9 made of concrete with reinforcing mesh 10 and embedded parts in the form of a metal plate 11 and anchors 12 (Fig.7). On the pillows 9 mounted rectangular precast elements 13 belts. L-shaped prefabricated elements of 14 belts are installed in the corner of the building. To increase the rigidity of the building, rectangular precast elements 13 of the longitudinal walls 6 are interconnected by metal beams 15. Columns 16 are installed in the middle part of the foundation 3, on which support pillows 9 and belts 13 are installed. At the ends of the precast elements 13 and 14 (Figs. 3, 4 ) there are longitudinal grooves 17. In the lower part of the grooves 17 on both sides are embedded parts consisting of corners 18, plates 19 and anchors 20 (Fig. 5). The lower working armature 21 of the prefabricated elements of the belts 13 and 14 is welded to the plates 19. On the prefabricated elements 13 and 14 of the belts there are transverse grooves 22 in which the plates 23 are welded to the rods 24. The rods 24 are connected to the mounting fittings 25 of the working reinforcement cage of the elements 13 and 14.

The reinforcing cages of the precast elements 13 and 14 of the belts consist of the lower working reinforcement 21, the upper working reinforcement 26 and the mounting reinforcement 25. The prefabricated elements of the belts 13 also have embedded parts in the form of plates 27 and anchors 28. These embedded parts are intended for fastening metal beams 15.

The technological process of construction is carried out as follows: after the installation of foundations 1, 3 and 3 on bored piles 4, brick pillars 5, 16 of walls 6 and 7 are laid. Brick walls 6 and 7 are reinforced with masonry mesh in 4 rows, and 4 rows are reinforced through 4 rows 16. as the construction of walls 6 and 7, brick pillars 5, 16 to overlap 1 ^WASTE floor cushions 9 mounted on pillars 5, the support pads 16. at 9 mounted rectangular and L-shaped elements 13 and the belts 14 so that the grooves 17 and the mortgage de ali of adjacent elements of the belts 13. Then, electric arc welding of the corners 18 to the embedded part (plate) 11 of the support pillow 9. Next, the mounting rods 29 are welded to the plates 23 and the rods 24 on both sides of the adjacent elements of the belts 13. A reinforcement is installed in the opening formed by the grooves 17 mesh 30 and bent rods 31 (Fig.7). Next, the concrete mixture is supplied, compacted and carefully smoothed. Thus, the joints of the prefabricated elements of the belts are arranged around the entire perimeter of the building, forming a rigid, reliable construction of the belt, able to absorb the forces arising during construction in the winter and later during the operation of the building. Masonry walls and pillars 2 ^WASTE floor is analogous to the 1 ^th floor.

To give greater rigidity to the building to the embedded parts 27 of the elements 13. metal beams 15 are welded, which compensate for the weakening of the building frame during thawing. The process of building insulation is described in our earlier applications.

Claims (5)

1. A cottage containing internal and external multilayer walls installed on foundations with a protective layer of small blocks, a number of columns inside the walls with belts installed on top of the columns around the perimeter of the building, forming a single frame system of the building, characterized in that the reinforced concrete belts are made of prefabricated reinforced concrete elements docked together on support pillows mounted on the heads of the columns, and the precast elements of the outer wall belts are rectangular, and the precast belt elements in the corner ah buildings - L-shaped. 2. The cottage according to claim 1, characterized in that the prefabricated elements of the longitudinal wall belts are connected by metal beams. 3. The cottage according to claim 1, characterized in that the ends of the prefabricated elements of the belts are equipped with embedded elements from the corners and plates, longitudinal and transverse grooves, which are symmetrical to the embedded parts and grooves of the adjacent prefabricated elements of the belts. 4. The cottage according to claim 1, characterized in that the embedded parts of the precast elements of the belts are connected by reinforcing bars with both the embedded parts of the adjacent elements of the belts and the embedded parts of the pillows of the pillars. 5. The cottage according to claim 1, characterized in that in the longitudinal grooves of the prefabricated elements of the belts, reinforcement is additionally installed in the form of reinforcing meshes and curved rods, and all the grooves are filled with concrete.