RU2383704C1 - Quakeproof building - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention is related to the field of construction, namely to erection of buildings and structures in earthquake zones. Quakeproof building comprises carcass, foundation slab suspended on traction rods, which are stiff in vertical direction, to foundation sleeve, which encloses it and rests on foundation soil, and layer of damping material. At the same time foot of foundation slab contacts layer of damping material laid on the bottom of foundation sleeve, and detectors are mounted into bottom of foundation sleeve for measurement of vertical pressure of building, value of which is adjusted by rotation of nuts at the ends of traction rods.

EFFECT: improved reliability and earthquake resistance of building due to control of friction, which occurs as a result of horizontal seismic load effect between foot of building foundation slab and layer of damping material.

1 cl, 1 dwg

Description

The present invention relates to the field of construction and can be used in the construction of buildings and structures in earthquake-prone areas.

An earthquake-resistant building is known containing a building and a foundation slab suspended from the foundation on rods (Patent for the invention of the Russian Federation No. 2129644 of 10.30.1996, Е04Н 9/00).

The disadvantage of this earthquake-resistant building is the increased complexity of the work associated with the installation of an elastic suspension installed between the base plate and the ceiling of the lower floor of the building.

The closest technical solution to the proposed invention is an earthquake-resistant building, including a frame, a foundation plate, suspended on rods to the enclosing foundation glass and a layer of damping material (ed. Certificate of the USSR No. 326338, Bull. No. 4 from 01/19/1972, E04H 9/02, E02D 27/34).

The disadvantage of this invention is the inability to control horizontal seismic loads transmitted to the frame of the building.

The problem to which the present invention is directed is to increase the reliability and earthquake resistance of a building by regulating the friction arising from the horizontal seismic load between the sole of the foundation plate of the building and the layer of damping material.

The essence of the invention lies in the fact that the earthquake-resistant building includes a frame, a foundation plate suspended on rods to the base glass enclosing it and a layer of damping material. In this case, the foundation cup has a bottom with built-in pressure sensors, on which a layer of damping material is laid.

The base plate is suspended on vertically rigid rods to the enclosing foundation cup buried in the ground. The sole of the foundation plate is in contact with the damping layer laid on the bottom of the foundation cup. The vertical pressure transmitted from the building to the damping layer is regulated by rotating the nuts at the ends of the vertical rods and is measured using pressure sensors mounted in the bottom of the foundation cup. Adjusting the vertical pressure from the building allows you to vary the frictional force arising between the base plate and the damping layer during horizontal seismic loads. Reducing the friction force, reduce the horizontal seismic load transmitted to the building frame. The complete exclusion of the frictional force is impractical, since this creates the possibility of resonance.

The invention is illustrated by the drawing, which shows the interface node of the base plate of the building with the base glass.

The invention is as follows. An earthquake-resistant building consists of a frame 1, a foundation plate 2, a foundation glass 3 and a layer of damping material 4. The foundation glass 3 is buried in the soil base. Pressure sensors 5 are placed in the bottom of the foundation cup 3. The base plate 2 is suspended on the vertical rigid rods 6 to the foundation cup 3. The sole of the base plate 2 is in contact with the damping layer 4 laid on the bottom of the foundation cup 3. The vertical pressure p transmitted from the frame building 1 on the damping layer 4, is regulated by the rotation of the nuts 7 at the ends of the rods 6 and is measured by pressure sensors 5. By adjusting the vertical pressure p, the friction force F _Tr arising between the base plate 2 and damping layer 4 under the action of a horizontal seismic load S. Reducing the friction force F _Tr reduce the horizontal seismic load transmitted to the frame of the building 1.

Claims (1)

An earthquake-resistant building, including a frame, a foundation plate, suspended on vertically rigid rods to a foundation glass that surrounds it, resting on the foundation ground and a layer of damping material, characterized in that the sole of the foundation plate is in contact with a layer of damping material laid on the bottom of the foundation glass, and in the bottom of the foundation glass mounted sensors for measuring the vertical pressure of the building, the value of which is regulated by the rotation of the nuts at the ends of the rods.