RU2045646C1 - Antiseismic building - Google Patents

Abstract

FIELD: designs of antiseismic buildings. SUBSTANCE: outer and inner walls of the building are made of sectional bearing members in the form of partition, connecting and girdle blocks and interconnected in a vertical plane by short reinforcing bars grouted in vertical channels of connecting and girdle blocks. EFFECT: higher seismic resistance and reduced consumption of reinforcing materials. 12 dwg

Description

 The invention relates to construction, namely to earthquake-resistant structures of buildings from large blocks, and can be used in the construction of earthquake-resistant buildings with large-block walls of two-row cutting.

Known multi-storey earthquake-resistant building, including wall panels, floor slabs and foundations, as well as stiffness diaphragms, and the panels are made with vertical channels and reinforcing rods placed in them, anchored in the foundation and upper floor slabs, which is the design of the stiffness diaphragm [1]
The known design can only be used when making wall fencing from panels and requires a large consumption of material for reinforcement.

Closest to the technical nature of the invention is the wall of a multi-storey earthquake-resistant building, including wall panels made with through niches and vertical channels connecting the niches to one of the supporting ends of the panel, the channels contain prestressed elements attached to junction boxes and monolithic with a solution. At the same time, wall panels are installed with ligation of vertical joints [2]
A disadvantage of the known solution is the lack of continuous vertical reinforcement necessary for the perception of normal stresses from bending and eccentric compression with significant seismic influences and narrow walls.

 The problem to which the invention is directed, is to increase the earthquake resistance of the building and reduce the consumption of material for reinforcement.

 The task is achieved in that in an earthquake-resistant building, including external and internal walls, floor slabs, foundation, embedded parts and short reinforcing bars, parts of prefabricated elements that are missing in vertical channels, monolithic in them and attached with ends to prefabricated elements and to the foundation with the formation a single carrier system, prefabricated load-bearing elements are made in the form of wall, waist and jumper blocks, and vertical channels are located in the waist and jumper blocks and are made through, when than embedded parts are installed in the wall blocks of the external walls and attached to their supporting reinforcement, and the supporting reinforcement of the wall blocks of the internal walls has outlets, while short reinforcing bars are attached with their ends to the embedded parts of the wall blocks adjacent in height and to the releases of the supporting arm of the wall blocks of the internal walls .

 In FIG. 1 shows a seismic building; in FIG. 2 vertical connection of the inner wall blocks; in FIG. 3 vertical connection of the outer wall blocks; in FIG. 4, section AA in FIG. 2; in FIG. 5 a section BB in FIG. 4; in FIG. 6 a section BB in FIG. 3; in FIG. 7 section GG in FIG. 6; in FIG. 8 horizontal connection of external jumper blocks and internal waist blocks with external; in FIG. 9 a section DD in FIG. 8; in FIG. 10 horizontal connection of internal jumper blocks; in FIG. 11 is a section EE in FIG. 10; in FIG. 12 is a sectional view FJ in FIG. 10.

 An earthquake-resistant building consists of a foundation 1 with outlets from a reinforced seam on top of foundation plates, external and internal walls of two-row cuts, consisting of prefabricated load-bearing elements made in the form of wall 2, lintel 3 and waist 4 large blocks, as well as floor slabs 5. Wall blocks 2 inner walls are made with reinforcement 6 embedded in them with outlets, and embedded in the wall units of 2 external walls are embedded parts 7 located on the surface of the blocks, with reinforcement 6 and embedded parts 7 respectively o attached to the supporting reinforcement of blocks. The lintel 3 and waist 4 blocks are made with supporting reinforcement 8 and vertical channels 9, having the shape of a truncated cylinder in the blocks of the outer walls and a truncated pyramid in the blocks of the inner walls.

 Channel pitch equal to the modulus of the blocks, 300 mm. Short reinforcing bars 10 are passed into the channels 9, which are attached by their ends to the embedded parts 7 of the wall blocks 2 of the outer walls adjacent in height and to the valve outlets 6 of the wall blocks of the 2 inner walls. On the lateral faces of the wall blocks 2, grooves 11 are made for filling with concrete when two adjacent blocks are installed. The outlets of adjacent outer lintel 3 and waist 4 blocks are interconnected by means of reinforcing rods 12, and indoor blocks 3 and 4 by means of metal plates 13 welded to embedded parts 14 of lap blocks 4, which in turn are welded to the supporting reinforcement 8 of the jumper 3 and waist blocks 4.

 Installation of an earthquake-resistant building is as follows. After the foundation 1 is erected, lintel 3 or waist 4 blocks are installed, and wall blocks 2 of the outer and inner walls and floor slabs are installed on them 5. Then, short reinforcing bars 10 are passed through the channels 9 in the lintel and waist blocks 3 and 4 and connected them by welding with embedded parts 7 of the wall blocks 2 of the outer walls and with the releases of the reinforcement 6 of the wall blocks of the inner walls, after which the channels 9 are monolithic. When two wall blocks 2 are installed side by side, the grooves 11 between them are concreted, in this case the grooves begin to play the role of dowels that prevent the blocks from moving in the vertical plane. The connection of all other blocks with each other and with floor slabs is carried out by known methods. The first floor of the building is assembled.

 Then the cycle is repeated during the assembly of subsequent floors. It should be borne in mind that short reinforcing bars 10 connect the wall blocks 2 in the vertical plane and at the same time work on bending in the vertical plane and horizontal shift, and vertical shift is perceived by jumper or waist blocks at the joints of the wall blocks 2 and wall blocks at the joints of waist blocks 4.

 The vertical connection of the reinforcement of the blocks creates a spatial rigid system that perceives a seismic effect on the building through horizontal disks of floors and walls, forming prefabricated monolithic diaphragms of rigidity, which increases the earthquake resistance of the building, and the use of short reinforcing bars and working reinforcement of the blocks directly allows to reduce the consumption of material for reinforcing the earthquake-resistant building.

 The proposed building design, in which the external and internal walls are made of interconnected prefabricated load-bearing elements in the form of large blocks, rather than panels, allows the use of local building material in the manufacture of blocks and facilitates the transportation of building envelope elements to the construction site. The used two-row cutting of large blocks allows you to vary the height of the lintel and waist blocks and, consequently, the height of the floor, as well as erect earthquake-resistant low-rise buildings for various purposes.

Claims (1)

 SEISMIC RESISTANT BUILDING, including external and internal walls, floor slabs, foundation, embedded parts and short reinforcing bars, parts of prefabricated elements that are missing in vertical channels, monolithic in them and attached with ends to prefabricated elements and to the foundation with the formation of a single load-bearing system, characterized in that that prefabricated load-bearing elements are made in the form of wall, waist and lintel large blocks, and vertical channels are located in the waist and lintel blocks and are made through, and parts installed in pillar blocks exterior walls and are attached to their carrier fixture, the carrier fixture and endings blocks interior wall has an outlet, wherein the short reinforcing rods are attached to the ends of the mortgage details related adjustment endings blocks and releases the support pillar reinforcement interior wall blocks.