SU842186A1 - Multistorey earthquake-proof building - Google Patents

Description

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The invention relates to the construction, in particular to the earthquake-resistant structures of high-rise buildings.

A multi-story seismic resistant building is known, in which in the space between the lower floor of the building and the foundation there are dampers consisting of several steel plates interconnected by layers of vulcanized rubber I.

However, in this building, the seismic energy absorbers are installed in only one horizontal level, which may prove to be insufficient during a strong earthquake and lead to the destruction of the upstream structures. In addition, the building has constant dynamic parameters and its design does not provide for the possibility of their adjustment, which provides seismic resistance in a narrow range of oscillation periods.

The closest in technical essence and the achieved effect is a seismic multi-storey building, including the foundation, the floor slabs and connected with them through elastic pads in the platform junction with stiffening diaphragm, run-.

nenen in the form of panels with vertical channels and crimped reinforcing. rods placed in the channels and anchored in the foundation and in the level of the upper panels of the ceiling G21.

However, the known building is characterized insufficiently. By the effective operation of its seismic protection devices.

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The purpose of the invention is to increase the seismic resistance.

This goal is achieved by the fact that in a multi-story earthquake-resistant

building, including the foundation, slabs and connected to them through elastic pads in the platform junction of the stiffness diaphragm, made in the form of panels with vertical channels and crimped reinforcing rods placed in the channels and anchored in the foundation and in the level of the upper panels to block the horizontal seams in the platform

The joints are made with areas with a frictional contact alternating with areas with an elastic sheeting. In addition, reinforcement bar anchors are provided with deactivating clamps.

Figure 1 shows schematically vertical diaphragms of building rigidity with a seismic protection device, a general view; figure 2 is a fragment of the platform interface; Fig. 3 shows an anchor device variant with deactivating clamps.

A multi-storey seismic resistant building consists of foundation 1, aepi-vertical diaphragms of 2 stiffness with through channels 3 and plates 4 of the ceiling. The horizontal joints of 5 platform joints of diaphragms 2 and plates 4 are made of y4acf 6 with elastic gaskets 7 and sections 8 with frictional contact 9. Channels 3 vertical diaphragms 2 all over the building height are missing pre-tensioned reinforcement 10 with anchors 11, stepwise the fixing of which is carried out sequentially located and turned off by the clips 12 in the form of, for example, shear pins, bolts and the like.

The dimensions of the sections 6 with elastic gaskets 7 and the sections 8 with friction contact 9 are determined by calculation. As the gasket 7, an elastically detrimental material can be used, for example rubber. The friction contact can be made by pressing the concrete portion of the diaphragm panel to the concrete section of the slab. The number of channels 3 for the passage of the reinforcement 10, the cross section and the type of reinforcement, the magnitude of the tension, the dimensions of the anchors 11, the number of deactivating clamps 12 and their parameters are determined by calculation.

The construction of the proposed building works as follows.

Tension of the reinforcement 10, missed in the channels 3 of the diaphragms 2 of rigidity, is performed by compressing the horizontal seams of the 5 platform joints. Moreover, due to the elastic deformation of the sections b with elastic gaskets 7, the necessary frictional contact of the sections 8 is formed. The tension of the reinforcement 10 is fixed by the lower and upper anchors 11. For example, the anchors 11 can be fixed by turning off the fasteners 12 sequentially arranged along the tension reinforcement. After tensioning the reinforcement 10, the building may have initial dynamic characteristics close to those of a rigid type. By varying the tension of the reinforcement 10, the initial dynamic parameters of the building can be adjusted within the required limits.

When the seismic impact increases, the strength of friction sections 8 and the elements of

The platform junction of diaphragms 2 and plates 4 begin to mutually shift within the gap of the channels 3. This leads to an increase in the forces in the reinforcement 10, an increase in pressure on the anchor 11, which overcomes the resistance of the first deactivating clamp 12 and slips to the second clamp 12. At the same time, the tension of the reinforcement 10 due to slippage of the anchor 11 falls,

The reduction of horizontal seams 5 in platform joints is also reduced. Under the regenerative action of the elastic gaskets 7, the seams are consumed and the frictional contact in the platform joints is weakened.

joints of each floor. The dynamic parameters for the height of the building vary significantly and the seismic load drops. In this way,

0 an increase in seismic protection is achieved. Subsequent seismic effects are perceived by the remaining latches. Assigning Threshold Response Values

5 clamps and distances between them, you can adjust the dynamic limits of the building.

The invention avoids resonance effects in a wide range of seismic effects. In addition, the proposed building is easily restored by tightening the reinforcement to the initial level and replacing the locking clamps.

Claims (2)

1. Multi-storey seismic resistant building, including the foundation, slabs overlap and connected with them through elastic pads at the platform junction of the stiffness diaphragm, made in the form of panels with vertical channels and crimped by reinforcing rods placed in the channels and anchored in the foundation and in the level of the upper panels of the ceiling, characterized in that, in order to improve seismic resistance The horizontal seams in the platform joints are made with areas with friction contact alternating with areas with elastic gaskets. 2. Pop. 1 building, distinguished with teM, that reinforcement anchors, sleep rods are screwed off with locking pins. Sources of information taken into account in the examination of l.Delfosse G. Protection contre les seismes. - Neuf, 1977, 1-11, No. 66, p. 40.41. 2. USSR author's certificate in tf 2640691 / 29-33, cl. E 04 And 9/02, 07.07.78. (rig.1 R 2