SU1477888A1 - Joint of slanting braces with crossbar of metal skeleton of earthquake-proof building - Google Patents

Abstract

The invention relates to a junction for connecting inclined links with a bolt of a metal earthquake-resistant building. The aim of the invention is to increase the reliability and efficiency of energy absorption by reducing the free run of the energy absorber and effectively putting braking forces into operation over the entire length of the free running and simplifying the design of the energy absorbers. Paired oblique links are attached to the middle of the transom through a connecting element and tared off links. With two sides of the connecting element and with a gap relative to it on the girder wedge-shaped energy absorbers with stops in their upper part are installed. The connecting element is made with bevels in the lower corners. The stops are formed by paired plates with shock-absorbing pads between them. 5 il.

Description

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The invention relates to construction and can be used in metal bonding skeletons of earthquake-resistant single and multi-storey buildings. The purpose of the invention is to increase the reliability and efficiency of energy absorption by reducing the free stroke of energy absorbers and effectively switching on - the work of braking forces along the entire length of free running and simplifying the design of energy absorbers. .

Figure 1 shows a multistory seismic building; figure 2 - node I in figure 1; on fig.Z - section aa in figure 2; figure 4 - section bb in figure 2; figure 5 - section bb In figure 2.

The node connecting the inclined links with the bolt of the metal earthquake-resistant building includes paired inclined links 1, connected to the middle of the crossbar 2 by means of the connecting element 3 and tared off links 4, and the energy absorber 5, provided with shock absorbers 6, placed on both sides of the connecting element 3 and attached rigidly to the bolt 2.

Energy absorbers 5 are made in the form of wedges 7, the lower ends of which are located under the connecting element 3, made with symmetrical bevels in the lower corners, the slope of which (rk corresponds to the slope of the wedges 7,

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and installed with gaps 8, 9 with respect to wedges 7 and stops 6,

Each of the lugs 6 is placed on the upper face of the wedge 7 and is made of paired plates 10 with elastic gaskets 11 between them, installed intermittently along the length of the plates 10, the first plate 10 of which is rigidly fixed to the wedge 7, and the second plate 10 by means of bolts 12 to the pegaway plate

10 on the side of the connecting element 3.

For fixing the direction of displacement of the connecting element 3 after cutting off the tared: off links 4, guides 13 are provided, welded to the flange. Tared 4 gf m disconnected connections were electrical sockets or Sopts. In order to ensure a guaranteed cut-off of a predetermined force and force, the change in the frequency characteristics of the moment of disconnection of the inclined links 1 of the connecting element 3 and the wedges 7 provides for gaps of 8 "

Intermittent placement of layouts

11 (only on the plates 10) provides a radiant damping of the impact and an increase in the energy efficiency due to the fact that the plates 10 at the moment of impact of the rib of the connecting element 3 operate in the elasto-plastic stage.

Inclined links 1 in the upper cells of the frame of the clamp t to the columns 14 for the calculated boltani force or by;

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The metal structure of the earthquake-proof building works as follows.

With seismic effects with periods of oscillations equal to or close to the period of natural oscillations of the building frame, in inclined connections x 1 there is an intensive increase of inertial forces, and when a predetermined level of these forces is reached, a brittle orifice of electric stubs attaching the connecting element 3 to the bolt 25 and oblique communications are temporarily disabled. After the overhead connection 1 is turned off, the natural frequency and, therefore, the seismic load drops. In this stage of operation, the connector element 3 is moved

along bolt 2. After the passage of the gap 8, the free mixing of the coupling element 3 is stopped. Further, he makes a forward movement along the inclined surface of the wedge 7, overcoming the elastic resistance of the bolt 2 and pressing it down. Before the joint element 3 is connected with the stop 6, the seismic energy is made by the friction of the inclined surfaces of the connecting element 3 and the wedge 7, and by the elastic resistance rigal 2 9 inclined links

5 1 and bending sections of columns 14.

The stops are placed at a distance of the maximum permissible amplitude of oscillation of the system, which is determined by calculation. The greater the way the connecting element 3 performs along the inclined airflow of the wedge 7, the greater the need to squeeze the bolt 2 and overcome the greater frictional resistance. Required ve5 rigidity rigel 2 and angle

the inclined surface of the wedge 7 is determined by calculation. During the contact of the connecting element 3 with the stop 6, a hard impact is prevented

0 elastic gaskets 11 stops 6 and the elastic work of the crossbar 2 columns 14 and inclined links 1.

After the impact, the displacement of the connecting element 3 in the opposite direction to the initial position passes on the inclined surface of the wedge 7 by overcoming the fricion resistance of the contacting surfaces. Then the movement along the other wedge 7 is repeated.

In the frame of a multistory building, it is possible to use off-sloping links 1 in several cells (Fig. 1). Subject to the appointment in the upper cells of the calibrated switch-off links 4 a lower carrying capacity than in the lower ones, it is possible.; to provide several levels of frequency tuning due to the sequential disconnection of oblique links 1 and thereby guarantee the seismic resistance of the building during repeated shocks with different frequency characteristics. After the cessation of seismic effects, the calibrated shutdown communications 4 are restored. In the rest, fixed slots are placed in fixed cells 15.

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Claims (1)

Claim A node for connecting inclined connections to a crossbar of a metal frame of an earthquake-resistant building, including paired inclined connections connected to the middle of the crossbar through a connecting element and calibrated turning off links, and energy absorbers equipped with shock absorbing stops placed on both sides of the connecting element and attached rigidly to the crossbar, characterized in that, in order to increase reliability and efficiency 5 energy absorption by reducing the free path of the energy absorber and effectively incorporating braking forces along the entire length of the free stroke and simplifying the design of 10 energy absorbers, the latter are made in the form of wedges facing each other, the lower ends of which are located under the connecting element made with symmetrical bevels 15 in the lower corners, the slope of which corresponds to the slope of the wedges, and set with a gap relative to the latter and the stops, each stop being placed on the upper edge of the wedge and made of pair plates with elastic gaskets between them installed intermittently along the length of the plates, while the first plate attached rigidly to the wedge, and the second to the first ²⁵ plate from the side of the connecting element by means of bolts. 14 7 78 8 8