SU966164A1 - Earthquake-proof foundation - Google Patents

Description

The invention relates to the construction of foundations, erected on soft soils, and is intended for use mainly in earthquake-prone areas.

The foundations of an earthquake-resistant building are known, containing spring shock absorbers under the foundation console, columns [1].

The disadvantage of this foundation is that, during seismic impacts, the cantilever columns are overloaded due to the uneven distribution of forces, which limits the reliability of the construction of the foundation.

The closest in technical essence to the proposed one is the foundation / containing vibration dampers, each of which is made in the form of plates mounted on a rod with an emphasis on the end, and placed in the ground [2].

However, this foundation is not effective enough in earthquake-prone areas, since compaction of the soil increases its waveguide ability,, with reinforcement 3. Vibration dampers 4, consisting of rods 5, at the end of which a stop b is fixed, support reinforced concrete on the rods 2 for supporting protrusions 2 7 and elastic plate 8. traction gasket 5 made of po- 5 covered anticorrosive _{t r} smooth steel rods are connected by welding with fittings 3, 5 strung on the rod through holes sequence-ι Tel'nykh elastic gaskets and jelly obe- 10 ton plates 7 which are in the form of isosceles triangles, with their area increases in the direction towards the supporting protrusion 2.

Next, compress the strung 15 gaskets and plates and install the stops 6 at the ends of the rods, then install the foundation in the soil, which is compacted.

The foundation works as follows. .

In statics at an angle of earthquake-resistant foundation rests on the soil over the entire area of the base of block 1 and the bases of different-sized reinforced concrete slabs 7, .. Due to the support protrusions 2, a developed surface of block 1 is formed, which contacts the surrounding soil. Vibration dampers in statics, like consoles, work in bending, and their different-sized reinforced concrete slabs 7 are engaged with the ground and work as original anchors, preventing block 1 from moving in the surrounding soil, which is facilitated by the developed surface of 35-faced concrete reinforced concrete slabs 7. At the same time, weak soil is compacted especially by the bases of block 1 and various-sized reinforced concrete slabs 7 on the area significantly larger than the area of the base of the unit, which contributes to an increase in the bearing capacity of the unit.

During the operation of a seismic-resistant foundation under seismic action, the developed surfaces of block 1 and various types of reinforced concrete slabs 7 at the moment of the action of a mechanical impulse impede the movement of their own foundation block 1 due to their anchoring in the environment of the surrounding soil. Different-sized reinforced concrete slabs that have come into oscillation, like waveguides, transmit vibrations to the ground and, by reflecting the vibrations, prevent them from spreading towards the foundation block. At the same time, * 5 elastic gaskets between the slabs come into operation, which, in addition to reflecting vibrations, deform, dampen vibration loads, which ensures the reliability of reinforced concrete slabs. ''

Different-sized reinforced concrete slabs are mounted base down to reduce specific pressure, which helps to increase the bearing capacity of the building foundation. A variety of reinforced concrete slabs also increases the bearing capacity of the foundation due to better anchoring in weak soils. The possibility of moving reinforced concrete slabs along smooth steel rods and the presence of elastic gaskets during seismic impact on the foundation lead to damping vibrations due to their reflection from the numerous surfaces of the iron ^and thin slabs and elastic gaskets in weak soil, which, having plastic properties, damps vibrations of equal-sized reinforced concrete plates. All taken together serves as an obstacle to the propagation of oscillations in the monolith of the foundation block.

Claims (2)

The invention relates to the construction of foundations erected on weak soils, and is intended for use primarily in earthquake-prone areas. The foundations of a seismic resistant building are known, which contain spring dampers under the cantilevers of the foundation column 1. The disadvantage of this foundation is that during the seismic effects the cantilevers of the column are overloaded due to uneven distribution of forces, which limits the reliability of the foundation design. The closest in technical essence to the proposed is. foundation; containing block and vibration dampers, each of which is made in the form of plates mounted on a tractor with an emphasis on the end, and is located in the ground 2. However, this foundation is not sufficiently effective in earthquake-prone areas, because soil compaction promotes the increase of its waveguide capacity, . : The purpose of the invention is to increase the carrying capacity under stagical and seismic loads. The goal is achieved by the fact that it is in a seismic foundation that includes a block and vibration dampers, each of which is made in the form of plates mounted on a rod having an end stop at the end; and is placed in the ground, the unit is equipped with reinforced supporting protrusions, and each vibration damper is equipped with at least one additional thrust with a stop, additional slabs, marked parallel to the main and mounted on the thrones with a possibility of movement, and elastic slips placed between the slabs, and The gi are connected to the reinforcement of the support lugs, one end plate of each vibration damper is adjacent to the corresponding block lug, and the other is attached to the stops t g, each plate can be made in the form of an isometric triangle, and the area of the plates increases uniformly to the supporting protrusions of the block. / FIG. 1 shows a foundation, a general view; 21a of Fig. 2 is a plate, a view in p. Vlok 1 of the foundation, which is ground in soil, contains supporting lugs 2 with reinforcement 3. Vibration dampers 4 are supported on supporting projections 2, consisting of m 5 g, at the end of which is fixed b, reinforced concrete plates 7 and elastic blocks 8 Ti g 5, made of coated with an anticorrosive composition,. smooth steel rods, joined by welding with reinforcement 3, string 5 are strung through openings successively elastic gaskets and reinforced concrete slabs 7, which are made in the form of isosceles triangles, and their area increases in the direction of the support lug 2. Then the compression strung gaskets and plates, and stops 6 are installed at the ends of the grates, then the foundation is laid in the ground, which is leveled. The foundation works as follows. In statics, at an angle, the seismic resistant foundation rests on the ground over the entire area of the foundation of block 1 and the bases of different-sized reinforced concrete slabs. By supporting protrusions 2, the surface of block 1 is developed in contact with the surrounding ground. Vibration absorbers in statics, like consoles, work on bending, and their various-sized reinforced concrete slabs 7 are engaged with the ground and work as original anchors, preventing the movement of block 1 in the space of the surrounding soil, which is promoted by the surface of different-sized reinforced concrete slabs 7. Weak soil at the same time, it is compacted especially with the pops of the base 1 and ore-sized reinforced concrete slabs 7 on the area significantly larger than the area of the block base, which contributes to an increase in the block carrying capacity. During the operation of a seismic resistant foundation under seismic action, the developed surfaces of block 1 and reinforced concrete slabs 7 of various sizes at the moment of the action of the mechanical impulse prevent the movement of their own foundation block 1 by anchoring them in the surrounding soil environment. The oscillation of different-sized reinforced concrete slabs, like waveguides, transmit oscillations to the ground and its surfaces, reflecting the oscillations that prevent them from spreading towards the foundation block. At the same time, elastic gaskets between the slabs come to work, which, in addition to reflecting vibrations, deform and dampen the vibration loads, thus ensuring the reliability of the reinforced concrete slabs. Different-sized reinforced concrete slabs are mounted with the base down to reduce the specific pressure, which contributes to an increase in the bearing capacity of the building foundation. A variety of reinforced concrete slabs also increases the bearing capacity of the foundation due to better anchoring in weak soils. The possibility of moving reinforced concrete slabs along smooth steel rods and the presence of elastic gaskets during a seismic impact on the foundation lead to the damping of vibrations due to the reflection of tlh. from the multiple surfaces of reinforced concrete slabs and elastic pads to weak ground, which, having plastic properties, damps vibrations of equally-sized reinforced concrete. Taken together, this serves as an obstacle to the spread of oscillations in the monolith of the foundation block. Claim 1. Seismic foundation, which includes a block and vibration dampers, each of which is made in the form of plates mounted on a tractor with a stop at the end, and placed in the ground, different from that, in order to increase the carrying capacity during static and seismic loads, the unit is equipped with reinforced support lugs, and each vibration damper is equipped with at least one additional thrust with a stop, additional plates placed parallel to the main one and mounted on movable thrusts, and spring gaskets placed between the plates, and the rods are connected to the reinforcement of the supporting lugs, one extreme plate of each vibration damper attracts the corresponding protrusion of the block, and the other - to the stops of the t. 2. The foundation of claim 1, about tl and ch yu and with the fact that each plate is made in the form of an isosceles triangle, with the area of the plates increasing uniformly to the supporting protrusions of the block. Sources of information taken into account in the examination 1. USSR author's certificate number 390234, cl. B 02 D 27/34, 1973. 2. USSR author's certificate for application 2830577 / 29-33, cl. E 02 D 27/44, 1979.