SU1133369A2 - Multistorey earthquake-proof building - Google Patents

Abstract

MULTILEVEL SEISMIC RESISTANCE BY AVT. St. Р 1079808, in order to improve seismic resistance, provide a deactivated connection shutdown and reduce the laboriousness of restoration works, this one is equipped with mission switches installed between the foundations and the trays and made in the form of washers placed between 1 cm of concrete a cushion, and the webs have holes for the passage of anchor bolts, while the upper one is attached to the holders with the help of the stops, and each t to is made with a loop on the lower con-. This includes the 11th waibs in their middle part.

Description

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The invention relates to construction.

According to the main author. St. No. 1079808, a multi-storey seismic resistant sjExamie is known, including foundations, columns and girders, forming rails, and tilted links, placed in paradise, in which tilted links are sewn as heavy, are located in two adjacent spans of frames and hingedly attached upper an end to the middle column in one of the nodes of its connection with the crossbar with the formation of an elastic support, and the lower end of the anchorings in the foundations of nearby columns, while the crossbars are installed below the attachment of connections to the middle column, flowed from the column holes and communications are passed through the latter with a gap relative to the inner surface of the holes. Damping material tT can be placed in the gaps.

The disadvantages of the known building are the large expenditures of labor, means and working time for restoring the destructed elements of the building and the impossibility of smoothly disconnecting the links with significant seismic effects.

The purpose of the invention is to increase seismic resistance, provide damped switching off of connections and reduce the labor intensity of restoration work.

This goal is achieved by the fact that a multi-storey earthquake-proof building is equipped with an off-link connection installed between foundations and towers and made in shy washers with a concrete pad placed between them, and the washers have openings for passing anchor bolts, with the upper one fixed. to the latter with the help of stops, and each m is made with a loop at the lower end, covering the washers in their middle part.

On fig. 1 shows a multistory seismic resistant building; in fig. 2 section aa in FIG. in fig. 3 section BB in 1; in fig. 4, node I in FIG. 1; FIG. 5 shows sections B-B in FIG. 4; at r. 6 node D in fig. one; . 7 is a cross-section of the FIG. 6; on . 8 - node @ in FIG. t | in fig. 9 - section dd on .fig. eight; on "Jrar. 10 is a section E-E of FIG. 9.

A multi-story earthquake-resistant building includes foundations 1, columns 2 and girders 3, which form frames in two mutually perpendicular directions, and inclined links 4, made as weights and located in two adjacent spans of the frames and in the plane of the latter. The straps 4 are hinged by the upper end to the middle column 2 in one of the nodes 5 of its connection with the bolt 81 3, passed through the holes 6 in the bolts 3 and channels formed from the semi-pipes 7, and are anchored to the lower end in the foundations 1 of the adjacent columns 2.

The hinged mounting of the upper ends of the strands 4 to the column 2 can be performed using metal plates 8 mounted on the column under factory conditions, and a round metal high-strength rod 9 passed through the holes 10 of the plates 8 and on which the straps are fixed 4. Holes 6 in crossbars x 3 are provided with pipe sections 11. Pipes 11 and half pipes 7 serve as walls, partitions (not shown) and bolts 3 against damage when transferring dynamic loads to weights 4. Gaps 12 between weights 4 and pipes 11 can be filled with elastic damping1 m material 13.

Between the bases 1 and the strands 4 are set off links 14, made in the form of two washers 15, a concrete pad 16 is placed between KoTopbttiH. The washers 15 are made with holes 17 for passing anchor bolts 18 and the upper one of the washers 15 is fixed on the latter by means of ynopos form, for example, nuts t9 ,, each f 4 has at the lower end a loop 20, covering the washers 15 in their middle part.

The construction of a multistory seismic resistant building is carried out as follows.

On the foundations}, in which the anchor bolts 1 are pre-installed, erect a skeleton, in the lower bolts 3 of which, at the height of the third to fifth floors, inclined pipes 11 are laid at the factory with a calculated angle of inclination and with a certain attachment to the ends of the beams 3. Diameter pipes 11 are prescribed depending on the diameter of the thrust 4 being passed through it.

After the erection of the frame 4, they are attached to the column 2. Then they are passed through pipes 11 to the foundations 1. Anchors 15 are put on the anchor bolts 18, between which a damper is laid, in the form of a concrete pad 16. The plates 15 and c using stops in the form of nuts 19, they are tensioned to a certain degree, pre-established by calculation. After tensioning the traction shears 4, damping material 13 is laid in the pipes 1t, then between the bolts 3 around the wires 4, half-pipes 7 are installed along their length, which are connected to each other and with the pipes 11 Under the action of small seismic wind forces concrete The cushions 16 are not included in the work due to the elasticity of the shears 4. The cushions are put into operation after the ultimate strains of the shears 4 and are destroyed by the action of maximum seismic force. With pomotsib concrete pillows 16 is on and off flexible strands 4 in the work.

Connection of the middle part of the transverse frame to the foundations with bending

stiffeners in the form of shears 4, passing the latter into the crossbars 3 through the damping material 13 and the device in the connection unit to the foundations 1 of the damper in the form of a concrete pad 16 ensures smooth disconnection of the connections 4 during loading seismic influences, tons. e self-tuning rigidity of the building as a whole.

The degree of restriction of deformations and the dissipative properties of the building in celsm depend on the degree of tension of the tides 4, their cross sections, the fixing distance over the height of the building, and the strength of the damping concrete backing 16.

In a building, the number of frames in both the longitudinal and transverse directions in which flexible cable ties are installed is determined by calculation.

The proposed frame design is easy to manufacture, avoids the occurrence of the sub-range, allows reestablishment of connections after switching on in a short period of time (only the replacement of concrete pillows is required) and thus the operating costs are insignificant.

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Claims (1)

MULTI-STOREY SEISMIC-RESISTANT BUILDING by ed. St. P 1079808, characterized in that, in order to increase seismic resistance, ensure a disconnected connection and reduce the laboriousness of restoration work, the building is equipped with disconnected communications installed! between foundations and bands and made in the form of washers with a concrete pad placed between them, and the washers have holes for passing anchor bolts / while the top of them is attached to the latter with stops, and each cord is made with a loop at the lower end, covering washers in their middle part. 05 dr 1 1133369 2