EA009832B1 - Aseismic building block - Google Patents

Abstract

The invention relates to building materials. The proposed invention is aimed at improving seismic stability of building blocks. The inventive aseismic building block (1) is provided with coaxial projections (2) and grooves (3) on the opposite sides thereof which are embodied in the form of a truncated cone, wherein a through hole is arranged along the projection axis, the height of the projection is equal to or greater than 2/3 of the block (1) height and the cone expansion angle ranges from 5 to 30 DEG, wherein the building block (1) is provided with through holes (4) arranged along the projection axis, at least a damping pad made of an elastic plastic material is mounted on the side surface of each projection for damping seismic waves in blocks united into a building structure. In particular, on the side surface of each projection there provided either one pad (7) designed as a truncated pipe equal to at least 2/3 of the projection (2) height or at least two damping rings (5 and 6) spaced from each other.

Description

The invention relates to the field of building materials.

Known building block, comprising a housing and connecting with other building blocks by means of a binder - cement [1].

The disadvantage of 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 the clutch from these blocks of seismic waves from a strong earthquake.

Known building block, comprising a housing containing coaxially located on opposite sides of the protrusions and grooves [2]. The masonry of these building blocks is made by inserting the protrusions of some blocks into the grooves of others, while the connecting joints are lubricated with a pre-binder (cement or glue), which creates a more dense and solid connection between these blocks.

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

The closest technical solution is the construction block of the designer “LEGO”, containing protrusions and grooves coaxially located on opposite sides [3]. The masonry of these building blocks is made by inserting the protrusions of some blocks in the grooves of others. In this case, the protrusions of some blocks fit snugly to the grooves of others, which allows them to be built using these blocks without the use of a binder (cement or glue).

The disadvantage of these blocks is low seismic resistance due to a rigid connection between the blocks, which leads to their physical destruction or mechanical protrusion of the protrusions from the grooves during the passage of a seismic wave from a strong earthquake.

The objective of the proposed invention is to improve the seismic stability of building blocks.

The task is solved by the fact that the building block containing grooves and protrusions coaxially located on its opposite supporting sides are designed to be placed in the response grooves of another block connected to it, has through-holes along the axes of the projections for core connection of blocks in the building structure, grooves and the projections are each made in the form of a truncated cone with an opening angle of not more than 30 ° and have a depth and height of at least 2/3 of the block height respectively, and on the side surface of each protrusion is anovlena at least one damping gasket for damping seismic waves in blocks connected to the building structure: according to the invention, the damping gasket is made in the form of a cone-shaped tube with a length of at least 2/3 of the height of the protrusion: according to the invention on the side surface of the protrusion are spaced from one another at least two damping pads, each of which is made in the form of a ring.

The essence of the proposed invention lies in the fact that the projections and grooves with a height of at least 2/3 of the height of the block ensures the stability of their connection. In this case, the opening angle of the cone ranges from 5 ° to 30 °, due to which, during the passage of a transverse seismic wave (having a much more destructive effect than a longitudinal one), despite the tangential effects on the building blocks, the protrusion of one block from the other groove does not occur. In this case, an angle of less than 5 ° makes it difficult to insert the protrusions of some blocks into the grooves of others and, as a result, the operative connection of blocks.

An angle greater than 30 ° does not allow the blocks to be firmly joined and causes the protrusions of some blocks to slide out of the grooves of others when differing from tangential displacements of large amplitude as a result of a seismic wave passing from a strong earthquake. At the same time, the damping rings of elastic-plastic material installed on the protrusions exert a damping effect when a seismic wave passes through the masonry of these blocks, due to which the blocks are not destroyed, and periodically compressing the pads subjected to elastic deformation, then with one, then from the opposite side.

FIG. 1. shows the design of the proposed seismic resistant building block. The seismic resistant building block 1 has protrusions 2, coaxially spaced with respect to it on the opposite side grooves 3 and a through hole 4 located along the axis of the projections 2. A through hole 4 in each protrusion 2 is necessary to fix the blocks to the foundation or frame of the building using metal rods, reinforced on one side on the foundation (building frame), and on the other passing through through holes 4 in interconnected earthquake-proof building blocks.

The protrusion 2 has a height of 1 ₁ not less than 2/3 of the height of the block 11. that is necessary for a stable connection of the protrusions and grooves of the blocks.

Two rings 5 and 6, made of an elastic-plastic material, such as rubber or a polymer composition, are put on the ledge.

FIG. 2. shows the connection of seismic resistant building blocks with each other. Masonry blocks can be any, which is used in the construction of conventional blocks. Damping pads are made in the form of a protrusion. When used for installation on each of the projections 2 two

- 1 009832 gaskets, these gaskets are made in the form of rings 5 and 6, and the inner diameter of the lower ring 5, shown in FIG. 2 is equal to the outer diameter of the protrusion 2 at a height below 1/2 of the height 1η of this protrusion 2, and the inner diameter of the second ring 6 is equal to the outer diameter of the protrusion 2 at a height above 1/2 of the height 1η of this protrusion 2.

Earthquake-proof building block works as follows. During the passage of a transverse seismic wave from a strong earthquake, tangential accelerations arise, which lead to the displacement of earthquake-resistant building blocks relative to each other.

FIG. 3 a) shows a fragment of the connection of the protrusion of the block 1 with the groove of the second block connected to it before the passage of the seismic wave.

FIG. 3) shows a fragment of the offset of the protrusion of block 1 relative to the groove of the second block during the passage of the first seismic half-wave. The arrow on the top shows the direction of displacement of the second block relative to block 1. As you can see, the damping pads on the left side have shrunk, and on the right side they are unclenched.

FIG. 3. c) shows a fragment of the offset of the protrusion 2 of block 1 relative to the groove of the second block during the passage of the second seismic half-wave. The arrow on the top shows the direction of displacement of the second block relative to block 1. As can be seen, the damping pads on the left side were unclenched, and on the right side they were compressed.

The damping gasket can be made of any shape and size, ensuring the solution of the problem, and the thickness of the gasket depends on the elastic material used and the dimensions of the earthquake-resistant building block, i.e. the larger the block size, the greater the thickness of the gasket, which is justified by the increase in the weight of the block and hence the inertial force that the gasket should damp.

FIG. 4. a) shows as an example a damping gasket 7 covering not less than 2/3 of the height of the protrusion 2 of block 1 and made in the form of a truncated cone of annular cross-section, the inner diameter of which is equal to the outer diameter of the conical protrusion 2 of the earthquake-resistant building block 1. For clarity, FIG. . 4. c) shows a three-dimensional image of the damping strip 7. Thus, the damping strip 7 isolates the groove of the block connected to block 1 from hard contact with the protrusion 2 of block 1. When a seismic wave passes from a strong earthquake, the principle of damping the strip 7 is similar to that described above principle with two O-rings 5 and 6.

Sources taken to attention:

1. Brick masonry walls and partitions KKT-3.0-3. (KTP building. Production) M., stroiizdat, 1979

2. USSR author's certificate No. 1604956, 1990, BI No. 41 3. “LEGO” for adults or construction using formwork from polystyrene foam blocks. Moscow, Housing Market newspaper, No. 34 (342) of September 5, 2002

Claims (3)

CLAIM 1. The building block, containing grooves and protrusions coaxially located on its opposite supporting sides, intended for placement in the reciprocal grooves of another unit connected to it, characterized in that it has through holes located on the axis of the protrusions for the core connection of the blocks in the building structure, grooves and the protrusions are each made in the form of a truncated cone with an opening angle of not more than 30 ° and respectively have a depth and height of at least 2/3 of the block height, and are installed on the side surface of each protrusion at least one damping pad for damping seismic waves in blocks connected to a building structure. 2. The building block according to claim 1, characterized in that the damping pad is made in the form of a cone-shaped tube with a length of at least 2/3 of the height of the protrusion. 3. The building block according to claim 1, characterized in that at least two damping pads, each of which is made in the form of a ring, are installed on the side surface of the protrusion at a distance from one another.