SU571561A1 - Reinforced composite block - Google Patents

Description

one

The invention relates to construction and can be used for the construction of buildings and structures in seismic regions.

The reinforced composite block is known, containing a small natural stone lining and reinforced concrete framing. The reinforcement of such a composite block is made of longitudinal reinforcement cages and transverse reinforcement 1 grids 1 j.

However, under seismic loads, the composite block is skewed, as a result of which it is compressed in the direction of one diagonal, and stretched in the direction of the other, and the reinforcement of the composite block is longitudinal and transverse, i.e. not aligned with the resulting forces, which increases the consumption of reinforcing steel; performing reinforcement of the composite block in the form of reinforced concrete framing requires the use of heat treatment to set the composite composite block of strength according to the SNiP IG-16-73.

IzoEosten reinforced composite block, including stonework masonry, laid in rows with dressing seams, the bottom row of which

made in the form of a support beam, longitudinal and transverse reinforcement, С Z3

This unit has insufficient resistance to seismic loads and has significant material intensity. ,

The purpose of the invention is to reduce the consumption of reinforcement while maintaining a constructive lining in the masonry, increasing

seismic resistance, as well as acceleration of the process of manufacturing a composite reinforced block without heat treatment.

This goal is achieved by the fact that the transverse reinforcement of the composite block is made in the form of a flat mesh with an oblique arrangement of rods connected to the longitudinal reinforcement and placed on the middle vertical mortar joint, and the longitudinal reinforcement is attached

to the support beam, with the tykkovy stones of a series placed in the grid cells.

The drawing shows the proposed unit.

The reinforced composite block consists of a masonry 1, in the middle vertical plane of which a reinforcement mesh 2 is installed, and two rods 3, which are attached to the support beam 4 by their lower ends

integrated design.

Armature mesh 2 is in the middle vertical mortar layer. The core of grid 2 is aligned coaxially with the seismic load arising from a seismic load, and the pinstones are placed in the cells of mesh 2 and tie up the laying 1.. Under the action of only vertical load, the supporting element of composite block 9 is laying 1. With seismic loads, the bars of the transverse reinforcement , working together with the masonry, prevents the occurrence and development of cracks and protects the unit from brittle fracture. The support beam of the complex structure, together with the longitudinal reinforcement attached to it, perceives the loads that arise when the block is removed from the formwork, during its transportation and installation.

The implementation of transverse reinforcement in the form of a flat mesh with oblique arrangement of rods directed coaxially in force, and the choice of spacing of the rods in such a way that the pin stones are located in the grid cells, makes it possible to reduce the consumption of reinforcement up to 40% by more efficiently arranging transverse reinforcement lining masonry. And performing the lower row of a composite building block in the form of a beam of a complex structure and fixing the longitudinal reinforcement to it allows you to remove the composite block from the formwork, failing to withstand it to gain the required strength according to SNiP -1b-73, thereby shortening the manufacturing time of the composite block and more efficiently and utilize production areas.

Claims (1)

1. Express information Experience in the construction of houses from monolithic reinforced concrete and saw limestone in the Moldavian SSR. Chisinau, MoldNIINTI, 1974. 2 about Published for Germany №1484067, cl. 37 in 2/46, 1973. L.