WO2007051262A1

WO2007051262A1 - Antiseismic construction

Info

Publication number: WO2007051262A1
Application number: PCT/AZ2005/000004
Authority: WO
Inventors: Elchin Nusrat Ogli Khalilov; Valter Kofler
Original assignee: Elchin Nusrat Ogli Khalilov; Valter Kofler
Priority date: 2005-11-02
Filing date: 2005-11-02
Publication date: 2007-05-10
Also published as: EP1947248A4; EP1947248A1

Abstract

The inventive method for antiseismic construction consists in mounting bearing walls made from building blocks, which are provided with vertical holes and are placed on a free part of steel rods arranged along the entire perimeter of a basement of the building external and internal walls, wherein the blocks of the external and internal walls are connected to interstoreys in such a way that the steel rod, whose middle part is incorporated therein, is inserted into the vertical holes of the lower storey blocks from the bottom, in placing at least three masonry layers on the free part of the rod, wherein said rods are rigidly fixed to a metal frame along the entire perimeter of a basement of the external and internal walls of the building and said metal frame is freely mounted on secured footholds arranged on the surface of the building basement, in introducing the steel rods into cylindrical cavities embodied in the interstoreys along the entire perimeter thereof, wherein a bearing part is rigidly arranged on said steel rods at a height equal to the interstorey half-thickness, in applying a damping agent to the rod surface contacting the vertical holes of the blocks, in covering the rod surfaces contacting the vertical holes with damping pads, in applying the damping agent to the surface of interblock joints and in covering said surfaces with the damping pads.

Description

METHOD OF SEISMIC RESISTANT CONSTRUCTION

The invention relates to the field of building materials, and in particular to methods of laying bearing walls.

A known building block, comprising a housing and connected to other building blocks by means of a binder - cement (1).

The disadvantage of laying this building block is the need to use a binder and low seismic resistance associated with the destruction of the cement bond between the blocks when passing through a masonry from these blocks of a seismic wave from a strong earthquake.

Known building block, comprising a housing containing coaxially located on opposite sides of the protrusions and grooves (2). Masonry from these building blocks is carried out by inserting the protrusions of some blocks into the grooves of others, while the connecting joints are pre-lubricated with a binder (cement or glue), which creates a more dense and monolithic bond between these blocks.

The disadvantage of these blocks is the need to use a binder and low seismic resistance, since when passing through a masonry from these blocks of a seismic wave from a strong earthquake, the connection between the blocks is broken due to the destruction of the cement bond (binder) in the joints of the blocks.

In addition, in the case of mechanical destruction of the foundation of the building, the entire building is destroyed.

The known solution-free method of laying walls, providing a rigid fixation of blocks and seismic stability, which is achieved through the use of a building block, where in the center of the spoon faces there is a through threaded hole paired with a hairpin, length which corresponds to the height of the block. (3)

The disadvantage of this method is that the rods passing in the spoon faces do not have damping means, thereby not providing mechanical strength in connections with the block during the passage of a seismic wave at the time of an earthquake.

In addition, in the case of mechanical destruction of the foundation of the building, the destruction of the entire building also occurs here.

The closest in technical essence and the achieved result is a method of laying building blocks with vertical through holes located symmetrically relative to the median vertical plane, connected by liners installed in the holes half protruding from the block plane, where channels can contain reinforcing rods to ensure seismic resistance of the structures, and surfaces liners and cones are covered with a viscous material - bitumen, adhesive mastic. (four)

The disadvantage of this method of laying walls is that this method is not possible to build high-rise earthquake-resistant buildings, because the rods passing through the channels, although they have damping means, do not provide mechanical strength in connections with the unit, because channels pass from the end of the block.

In this case, too, the mechanical destruction of the foundation leads to the destruction of the building as a whole.

The objective of the proposed method is to simplify the masonry technology and increase the strength and seismic stability of masonry buildings from earthquake-resistant building blocks.

The problem is solved in that the method of earthquake-resistant construction, including laying bearing walls from building blocks with vertical holes, where the blocks are installed on the free part of the steel pins located around the entire perimeter of the foundation, the supporting and internal walls of the building, blocks In this case, the load-bearing and internal walls are connected to the interfloor ceilings in such a way that the steel pin, which is mounted in the middle part in the ceiling, is installed from below into the vertical holes of the blocks of the lower floor, and from above into the vertical holes of the blocks of the upper floor; at least three are installed on the free part of the pin rows of masonry, and the steel pins are rigidly mounted on a metal frame around the entire perimeter of the foundation, of the supporting and internal walls of the building, while the metal frame is freely mounted on strong supports canals installed on the surface of the building foundation; in interfloor ceilings, steel pins are installed in vertical cylindrical cavities located around the entire perimeter, while on the steel pins, at a height V _{2 of the} thickness of the overlap from the middle of the pins, the support element is rigidly fixed; a damping substance is applied to the surface of the pins in contact with the vertical holes of the blocks; the surface of the pins in contact with the vertical holes of the blocks is covered with damping pads; the surface of the joints between the blocks is applied damping substance; the surface of the joints between the blocks is covered with damping pads.

The essence of the proposed method lies in the fact that steel pins with increased elasticity, when passing a seismic wave, bend within certain limits without destroying the seismic blocks, and the presence of damping elements allows to reduce shock loads with high acceleration of the displacement of the earth's surface during an earthquake.

The passage of steel pins of less than three rows of seismic blocks leads to a decrease in the mechanical strength of the masonry of the bearing walls.

The greatest efficiency of this method was achieved using an earthquake-resistant building block according to the application WO 2005/106134 (PCT / AZ2004 / 000004).

The proposed method is structurally presented in FIG. 1, 2 and 3. On figure 1. shows the connection of earthquake-resistant building blocks with the foundation of the building.

In figure 2. Shows a method of connecting earthquake-resistant building blocks of load-bearing walls with floors.

In Fig.Z. Shows a general view of the building installed on the foundation.

The method is implemented as follows:

Around the perimeter of the foundation of the building a metal frame 1 is made, for example, of. steel channel. On the surface of the frame, metal pins 2 are rigidly fixed, the height of which corresponds to at least the height of three rows of masonry from earthquake-resistant building blocks. Earthquake-resistant building 'blocks are installed on the free part of the steel pins 2, while a damping substance is applied to the surface of the metal pins or damping pads are installed. The metal frame 1 is freely mounted on the solid supports 3, mounted on the fixed concrete foundation of the building 4. As supports, steel rails or other durable structures with a smooth upper surface can be used.

Steel pins 2 are installed vertically on a concrete or other floor between floors 1, around the entire perimeter of the bearing and internal walls, which are mounted in the middle part on the floor using the support element 3, while the bottom pins are installed in the vertical holes of the lower floor blocks 4, and from the top into the vertical holes of the blocks of the upper floor 5, Fig. 2 A. The pins are installed at a length of at least three masonry building blocks, and a damping substance is applied to the surface of the pins or installed empfiruyuschie pads.

The uppermost overlap constituting the roof of the building (Fig. 2 V.), in the same way, is fastened with steel pins 2 with load-bearing and internal walls. In this case, the upper part of the pins can have any length, depending on the roof structure of the building 7. Cylindrical cavities b are installed around the entire perimeter of the supporting and internal walls of the interfloor ceilings 1, and on the steel pins 2 at a height Vg of the thickness of the floor from the middle of the pins, the supporting element 3 is rigidly fixed, Fig. 2 C.

The surface of the joints between the earthquake-resistant building blocks is covered with a damping substance or damping gaskets.

In the event of a strong earthquake due to the flexible connection of the bearing and internal walls to the floors with the help of pins coated with a damping substance or gaskets, the steel pins allow the building to elastically deform in the zone of the joining of the floors with the walls within certain limits, and the damping substance between the building blocks and on the surface of the pins softens shock loads on building blocks and partially absorbs the energy of a seismic wave. Due to this, a building constructed of earthquake-resistant building blocks according to this method can be deformed at the time of an earthquake with the subsequent restoration of its original shape, but it does not collapse.

In addition, due to the absence of a rigid connection between the metal frame of the lower part of the building and the foundation of the building, during an earthquake, the building together with the metal frame slides along the surface of the solid supports rigidly mounted on the foundation of the building, in antiphase to seismic vibrations. Due to this glide, the acceleration experienced by the building at the time of the earthquake is sharply reduced. This reduces the mechanical stress on the building and prevents its destruction.

The presence of a metal frame in the lower part of the building and the mechanical connection of the earthquake-resistant building blocks and all other building elements with each other creates mechanical integrity and, at the same time, flexibility of the entire building structure, so that it does not collapse even with mechanical damage to the foundation, for example, when one part is displaced foundation 1, relative to another part 2 along a fault in the earth's crust, crossing the foundation of building 3, Fig.Z.

This type of displacement of the earth's crust, in all other cases, leads to the complete destruction of buildings. When using this method, the free placement of the whole metal frame of the building 4 on the supports of the foundation 5, leads to the sliding of individual parts of the foundation 1 and 2 with the supports 5 relative to the metal frame of the building 4.

LITERATURE

1. Brickwork of walls and partitions KKT-3.0-3 (KTP construction production), M., Stroyizdat, 1979

2. A.S.SSSR N21604956, 1990, BI Ne41

3. Russian patent Ns2107134

4. A.S.SSSSR NQ1472605, 1989, BI N ° 14

Claims

CLAIM

1. A method of earthquake-resistant construction, including laying bearing walls from building blocks with vertical holes, which means that the blocks are installed on the free part of the steel pins located on the entire perimeter of the foundation, the bearing and internal walls of the building, the blocks of bearing walls are connected with interfloor ceilings in such a way that a steel pin, in the middle part mounted in the ceiling, is installed from below into the vertical holes of the blocks of the lower floor, and from above into the vertical holes of the blocks hnego floor.

2. The method according to claim 1, with the fact that at least three rows of masonry are installed on the free part of the pin, and the steel pins are rigidly mounted on a metal frame around the entire perimeter of the foundation, supporting and internal walls of the building while the metal frame is freely mounted on metal supports mounted on the surface of the building foundation.

3. The method according to claim 1, such as the fact that in the interfloor ceilings, the steel pins are installed in vertical cylindrical cavities located around the entire perimeter, while on the steel pins, at a height Vg of the thickness of the overlap, rigidly fix the support element.

4. The method according to claim 1, characterized in that a damping substance is applied to the surface of the pins in contact with the vertical holes of the blocks.

5. The method according to claim 1, with the exception that the surface of the pins in contact with the vertical holes of the blocks is covered with damping pads.

6. The method according to claim 1, characterized in that a damping substance is applied to the surface of the joints between the blocks.

7. The method according to claim 1, with the exception that the surface of the joints between the blocks is covered with damping gaskets.